/* vi:set ts=8 sts=4 sw=4 noet: * * MzScheme interface by Sergey Khorev * Based on work by Brent Fulgham * (Based on lots of help from Matthew Flatt) * * This consists of six parts: * 1. MzScheme interpreter main program * 2. Routines that handle the external interface between MzScheme and * Vim. * 3. MzScheme input/output handlers: writes output via [e]msg(). * 4. Implementation of the Vim Features for MzScheme * 5. Vim Window-related Manipulation Functions. * 6. Vim Buffer-related Manipulation Functions * * NOTES * 1. Memory, allocated with scheme_malloc*, need not to be freed explicitly, * garbage collector will do it self * 2. Requires at least NORMAL features. I can't imagine why one may want * to build with TINY features but with MzScheme interface. * 3. I don't use K&R-style functions. Anyways, MzScheme headers are ANSI. */ #include "vim.h" #include "if_mzsch.h" // Only do the following when the feature is enabled. Needed for "make // depend". #if defined(FEAT_MZSCHEME) || defined(PROTO) #ifdef PROTO typedef int Scheme_Object; typedef int Scheme_Closed_Prim; typedef int Scheme_Env; typedef int Scheme_Hash_Table; typedef int Scheme_Type; typedef int Scheme_Thread; typedef int Scheme_Closed_Prim; typedef int mzshort; typedef int Scheme_Prim; typedef int HINSTANCE; #endif /* * scheme_register_tls_space is only available on 32-bit Windows until * racket-6.3. See * http://docs.racket-lang.org/inside/im_memoryalloc.html?q=scheme_register_tls_space */ #if MZSCHEME_VERSION_MAJOR >= 500 && defined(MSWIN) \ && defined(USE_THREAD_LOCAL) \ && (!defined(_WIN64) || MZSCHEME_VERSION_MAJOR >= 603) # define HAVE_TLS_SPACE 1 #endif /* * Since version 4.x precise GC requires trampolined startup. * Futures and places in version 5.x need it too. */ #if defined(MZ_PRECISE_GC) && MZSCHEME_VERSION_MAJOR >= 400 \ || MZSCHEME_VERSION_MAJOR >= 500 \ && (defined(MZ_USE_FUTURES) || defined(MZ_USE_PLACES)) # define TRAMPOLINED_MZVIM_STARTUP #endif // Base data structures #define SCHEME_VIMBUFFERP(obj) SAME_TYPE(SCHEME_TYPE(obj), mz_buffer_type) #define SCHEME_VIMWINDOWP(obj) SAME_TYPE(SCHEME_TYPE(obj), mz_window_type) typedef struct { Scheme_Object so; buf_T *buf; } vim_mz_buffer; #define INVALID_BUFFER_VALUE ((buf_T *)(-1)) typedef struct { Scheme_Object so; win_T *win; } vim_mz_window; #define INVALID_WINDOW_VALUE ((win_T *)(-1)) /* * Prims that form MzScheme Vim interface */ typedef struct { Scheme_Closed_Prim *prim; char *name; int mina; // arity information int maxa; } Vim_Prim; typedef struct { char *name; Scheme_Object *port; } Port_Info; /* *======================================================================== * Vim-Control Commands *======================================================================== */ /* *======================================================================== * Utility functions for the vim/mzscheme interface *======================================================================== */ #ifdef HAVE_SANDBOX static Scheme_Object *sandbox_file_guard(int, Scheme_Object **); static Scheme_Object *sandbox_network_guard(int, Scheme_Object **); static void sandbox_check(void); #endif // Buffer-related commands static Scheme_Object *buffer_new(buf_T *buf); static Scheme_Object *get_buffer_by_num(void *, int, Scheme_Object **); static vim_mz_buffer *get_vim_curr_buffer(void); // Window-related commands static Scheme_Object *window_new(win_T *win); static vim_mz_window *get_vim_curr_window(void); /* *======================================================================== * Internal Function Prototypes *======================================================================== */ static int vim_error_check(void); static int do_mzscheme_command(exarg_T *, void *, Scheme_Closed_Prim *what); static int startup_mzscheme(void); static char *string_to_line(Scheme_Object *obj); #if MZSCHEME_VERSION_MAJOR >= 501 # define OUTPUT_LEN_TYPE intptr_t #else # define OUTPUT_LEN_TYPE long #endif static void do_output(char *mesg, OUTPUT_LEN_TYPE len); static void do_printf(char *format, ...) ATTRIBUTE_FORMAT_PRINTF(1, 2); static void do_flush(void); static Scheme_Object *_apply_thunk_catch_exceptions( Scheme_Object *, Scheme_Object **); static Scheme_Object *extract_exn_message(Scheme_Object *v); static Scheme_Object *do_eval(void *, int noargc, Scheme_Object **noargv); static Scheme_Object *do_load(void *, int noargc, Scheme_Object **noargv); static void register_vim_exn(void); static vim_mz_buffer *get_buffer_arg(const char *fname, int argnum, int argc, Scheme_Object **argv); static vim_mz_window *get_window_arg(const char *fname, int argnum, int argc, Scheme_Object **argv); static int line_in_range(linenr_T, buf_T *); static void check_line_range(linenr_T, buf_T *); static void mz_fix_cursor(int lo, int hi, int extra); static int eval_with_exn_handling(void *, Scheme_Closed_Prim *, Scheme_Object **ret); static void make_modules(void); static void init_exn_catching_apply(void); static int mzscheme_env_main(Scheme_Env *env, int argc, char **argv); static int mzscheme_init(void); #ifdef FEAT_EVAL static Scheme_Object *vim_to_mzscheme(typval_T *vim_value); static Scheme_Object *vim_to_mzscheme_impl(typval_T *vim_value, int depth, Scheme_Hash_Table *visited); static int mzscheme_to_vim(Scheme_Object *obj, typval_T *tv); static int mzscheme_to_vim_impl(Scheme_Object *obj, typval_T *tv, int depth, Scheme_Hash_Table *visited); static Scheme_Object *vim_funcref(void *data, int argc, Scheme_Object **argv); #endif #ifdef MZ_PRECISE_GC static int buffer_size_proc(void *obj UNUSED) { return gcBYTES_TO_WORDS(sizeof(vim_mz_buffer)); } static int buffer_mark_proc(void *obj) { return buffer_size_proc(obj); } static int buffer_fixup_proc(void *obj) { // apparently not needed as the object will be uncollectable while // the buffer is alive // vim_mz_buffer* buf = (vim_mz_buffer*) obj; // buf->buf->b_mzscheme_ref = GC_fixup_self(obj); return buffer_size_proc(obj); } static int window_size_proc(void *obj UNUSED) { return gcBYTES_TO_WORDS(sizeof(vim_mz_window)); } static int window_mark_proc(void *obj) { return window_size_proc(obj); } static int window_fixup_proc(void *obj) { // apparently not needed as the object will be uncollectable while // the window is alive // vim_mz_window* win = (vim_mz_window*) obj; // win->win->w_mzscheme_ref = GC_fixup_self(obj); // return window_size_proc(obj); } // with precise GC, w_mzscheme_ref and b_mzscheme_ref are immobile boxes // containing pointers to a window/buffer // with conservative GC these are simply pointers # define WINDOW_REF(win) *(vim_mz_window **)((win)->w_mzscheme_ref) # define BUFFER_REF(buf) *(vim_mz_buffer **)((buf)->b_mzscheme_ref) #else # define WINDOW_REF(win) (vim_mz_window *)((win)->w_mzscheme_ref) # define BUFFER_REF(buf) (vim_mz_buffer *)((buf)->b_mzscheme_ref) #endif #if defined(DYNAMIC_MZSCHEME) || defined(PROTO) static Scheme_Object *dll_scheme_eof; static Scheme_Object *dll_scheme_false; static Scheme_Object *dll_scheme_void; static Scheme_Object *dll_scheme_null; static Scheme_Object *dll_scheme_true; static Scheme_Thread **dll_scheme_current_thread_ptr; static void (**dll_scheme_console_printf_ptr)(char *str, ...); static void (**dll_scheme_console_output_ptr)(char *str, OUTPUT_LEN_TYPE len); static void (**dll_scheme_notify_multithread_ptr)(int on); static void *(*dll_GC_malloc)(size_t size_in_bytes); static void *(*dll_GC_malloc_atomic)(size_t size_in_bytes); static Scheme_Env *(*dll_scheme_basic_env)(void); static void (*dll_scheme_check_threads)(void); static void (*dll_scheme_register_static)(void *ptr, long size); static void (*dll_scheme_set_stack_base)(void *base, int no_auto_statics); static void (*dll_scheme_add_global)(const char *name, Scheme_Object *val, Scheme_Env *env); static void (*dll_scheme_add_global_symbol)(Scheme_Object *name, Scheme_Object *val, Scheme_Env *env); static Scheme_Object *(*dll_scheme_apply)(Scheme_Object *rator, int num_rands, Scheme_Object **rands); static Scheme_Object *(*dll_scheme_builtin_value)(const char *name); # if MZSCHEME_VERSION_MAJOR >= 299 static Scheme_Object *(*dll_scheme_byte_string_to_char_string)(Scheme_Object *s); static Scheme_Object *(*dll_scheme_make_path)(const char *chars); # endif static void (*dll_scheme_close_input_port)(Scheme_Object *port); static void (*dll_scheme_count_lines)(Scheme_Object *port); #if MZSCHEME_VERSION_MAJOR < 360 static Scheme_Object *(*dll_scheme_current_continuation_marks)(void); #else static Scheme_Object *(*dll_scheme_current_continuation_marks)(Scheme_Object *prompt_tag); #endif static void (*dll_scheme_display)(Scheme_Object *obj, Scheme_Object *port); static char *(*dll_scheme_display_to_string)(Scheme_Object *obj, OUTPUT_LEN_TYPE *len); static int (*dll_scheme_eq)(Scheme_Object *obj1, Scheme_Object *obj2); static Scheme_Object *(*dll_scheme_do_eval)(Scheme_Object *obj, int _num_rands, Scheme_Object **rands, int val); static void (*dll_scheme_dont_gc_ptr)(void *p); static Scheme_Object *(*dll_scheme_eval)(Scheme_Object *obj, Scheme_Env *env); static Scheme_Object *(*dll_scheme_eval_string)(const char *str, Scheme_Env *env); static Scheme_Object *(*dll_scheme_eval_string_all)(const char *str, Scheme_Env *env, int all); static void (*dll_scheme_finish_primitive_module)(Scheme_Env *env); # if MZSCHEME_VERSION_MAJOR < 299 static char *(*dll_scheme_format)(char *format, int flen, int argc, Scheme_Object **argv, long *rlen); # else static char *(*dll_scheme_format_utf8)(char *format, int flen, int argc, Scheme_Object **argv, OUTPUT_LEN_TYPE *rlen); static Scheme_Object *(*dll_scheme_get_param)(Scheme_Config *c, int pos); # endif static void (*dll_scheme_gc_ptr_ok)(void *p); # if MZSCHEME_VERSION_MAJOR < 299 static char *(*dll_scheme_get_sized_string_output)(Scheme_Object *, long *len); # else static char *(*dll_scheme_get_sized_byte_string_output)(Scheme_Object *, OUTPUT_LEN_TYPE *len); # endif static Scheme_Object *(*dll_scheme_intern_symbol)(const char *name); static Scheme_Object *(*dll_scheme_lookup_global)(Scheme_Object *symbol, Scheme_Env *env); static Scheme_Object *(*dll_scheme_make_closed_prim_w_arity) (Scheme_Closed_Prim *prim, void *data, const char *name, mzshort mina, mzshort maxa); static Scheme_Object *(*dll_scheme_make_integer_value)(long i); static Scheme_Object *(*dll_scheme_make_pair)(Scheme_Object *car, Scheme_Object *cdr); static Scheme_Object *(*dll_scheme_make_prim_w_arity)(Scheme_Prim *prim, const char *name, mzshort mina, mzshort maxa); # if MZSCHEME_VERSION_MAJOR < 299 static Scheme_Object *(*dll_scheme_make_string)(const char *chars); static Scheme_Object *(*dll_scheme_make_string_output_port)(); # else static Scheme_Object *(*dll_scheme_make_byte_string)(const char *chars); static Scheme_Object *(*dll_scheme_make_byte_string_output_port)(); # endif static Scheme_Object *(*dll_scheme_make_struct_instance)(Scheme_Object *stype, int argc, Scheme_Object **argv); static Scheme_Object **(*dll_scheme_make_struct_names)(Scheme_Object *base, Scheme_Object *field_names, int flags, int *count_out); static Scheme_Object *(*dll_scheme_make_struct_type)(Scheme_Object *base, Scheme_Object *parent, Scheme_Object *inspector, int num_fields, int num_uninit_fields, Scheme_Object *uninit_val, Scheme_Object *properties # if MZSCHEME_VERSION_MAJOR >= 299 , Scheme_Object *guard # endif ); static Scheme_Object **(*dll_scheme_make_struct_values)( Scheme_Object *struct_type, Scheme_Object **names, int count, int flags); static Scheme_Type (*dll_scheme_make_type)(const char *name); static Scheme_Object *(*dll_scheme_make_vector)(int size, Scheme_Object *fill); static void *(*dll_scheme_malloc_fail_ok)(void *(*f)(size_t), size_t); static Scheme_Object *(*dll_scheme_open_input_file)(const char *name, const char *who); static Scheme_Env *(*dll_scheme_primitive_module)(Scheme_Object *name, Scheme_Env *for_env); static int (*dll_scheme_proper_list_length)(Scheme_Object *list); static void (*dll_scheme_raise)(Scheme_Object *exn); static Scheme_Object *(*dll_scheme_read)(Scheme_Object *port); static void (*dll_scheme_signal_error)(const char *msg, ...); static void (*dll_scheme_wrong_type)(const char *name, const char *expected, int which, int argc, Scheme_Object **argv); # if MZSCHEME_VERSION_MAJOR >= 299 static void (*dll_scheme_set_param)(Scheme_Config *c, int pos, Scheme_Object *o); static Scheme_Config *(*dll_scheme_current_config)(void); static Scheme_Object *(*dll_scheme_char_string_to_byte_string) (Scheme_Object *s); static Scheme_Object *(*dll_scheme_char_string_to_path) (Scheme_Object *s); static void *(*dll_scheme_set_collects_path)(Scheme_Object *p); # endif static Scheme_Hash_Table *(*dll_scheme_make_hash_table)(int type); static void (*dll_scheme_hash_set)(Scheme_Hash_Table *table, Scheme_Object *key, Scheme_Object *value); static Scheme_Object *(*dll_scheme_hash_get)(Scheme_Hash_Table *table, Scheme_Object *key); static Scheme_Object *(*dll_scheme_make_double)(double d); static Scheme_Object *(*dll_scheme_make_sized_byte_string)(char *chars, long len, int copy); static Scheme_Object *(*dll_scheme_namespace_require)(Scheme_Object *req); static Scheme_Object *(*dll_scheme_dynamic_wind)(void (*pre)(void *), Scheme_Object *(* volatile act)(void *), void (* volatile post)(void *), Scheme_Object *(*jmp_handler)(void *), void * volatile data); # ifdef MZ_PRECISE_GC static void *(*dll_GC_malloc_one_tagged)(size_t size_in_bytes); static void (*dll_GC_register_traversers)(short tag, Size_Proc size, Mark_Proc mark, Fixup_Proc fixup, int is_constant_size, int is_atomic); # endif # if MZSCHEME_VERSION_MAJOR >= 400 static void (*dll_scheme_init_collection_paths)(Scheme_Env *global_env, Scheme_Object *extra_dirs); static void **(*dll_scheme_malloc_immobile_box)(void *p); static void (*dll_scheme_free_immobile_box)(void **b); # endif # if MZSCHEME_VERSION_MAJOR >= 500 # ifdef TRAMPOLINED_MZVIM_STARTUP static int (*dll_scheme_main_setup)(int no_auto_statics, Scheme_Env_Main _main, int argc, char **argv); # if defined(IMPLEMENT_THREAD_LOCAL_VIA_WIN_TLS) || MZSCHEME_VERSION_MAJOR >= 603 static void (*dll_scheme_register_tls_space)(void *tls_space, int _tls_index); # endif # endif # if defined(IMPLEMENT_THREAD_LOCAL_VIA_WIN_TLS) || defined(IMPLEMENT_THREAD_LOCAL_EXTERNALLY_VIA_PROC) static Thread_Local_Variables *(*dll_scheme_external_get_thread_local_variables)(void); # endif # endif # if MZSCHEME_VERSION_MAJOR >= 600 static void (*dll_scheme_embedded_load)(intptr_t len, const char *s, int predefined); static void (*dll_scheme_register_embedded_load)(intptr_t len, const char *s); static void (*dll_scheme_set_config_path)(Scheme_Object *p); # endif #if defined(DYNAMIC_MZSCHEME) // not when defined(PROTO) // arrays are imported directly # define scheme_eof dll_scheme_eof # define scheme_false dll_scheme_false # define scheme_void dll_scheme_void # define scheme_null dll_scheme_null # define scheme_true dll_scheme_true // pointers are GetProceAddress'ed as pointers to pointer #if !defined(USE_THREAD_LOCAL) && !defined(LINK_EXTENSIONS_BY_TABLE) # define scheme_current_thread (*dll_scheme_current_thread_ptr) # endif # define scheme_console_printf (*dll_scheme_console_printf_ptr) # define scheme_console_output (*dll_scheme_console_output_ptr) # define scheme_notify_multithread (*dll_scheme_notify_multithread_ptr) // and functions in a usual way # define GC_malloc dll_GC_malloc # define GC_malloc_atomic dll_GC_malloc_atomic # define scheme_add_global dll_scheme_add_global # define scheme_add_global_symbol dll_scheme_add_global_symbol # define scheme_apply dll_scheme_apply # define scheme_basic_env dll_scheme_basic_env # define scheme_builtin_value dll_scheme_builtin_value # if MZSCHEME_VERSION_MAJOR >= 299 # define scheme_byte_string_to_char_string dll_scheme_byte_string_to_char_string # define scheme_make_path dll_scheme_make_path # endif # define scheme_check_threads dll_scheme_check_threads # define scheme_close_input_port dll_scheme_close_input_port # define scheme_count_lines dll_scheme_count_lines # define scheme_current_continuation_marks \ dll_scheme_current_continuation_marks # define scheme_display dll_scheme_display # define scheme_display_to_string dll_scheme_display_to_string # define scheme_do_eval dll_scheme_do_eval # define scheme_dont_gc_ptr dll_scheme_dont_gc_ptr # define scheme_eq dll_scheme_eq # define scheme_eval dll_scheme_eval # define scheme_eval_string dll_scheme_eval_string # define scheme_eval_string_all dll_scheme_eval_string_all # define scheme_finish_primitive_module dll_scheme_finish_primitive_module # if MZSCHEME_VERSION_MAJOR < 299 # define scheme_format dll_scheme_format # else # define scheme_format_utf8 dll_scheme_format_utf8 # endif # define scheme_gc_ptr_ok dll_scheme_gc_ptr_ok # if MZSCHEME_VERSION_MAJOR < 299 # define scheme_get_sized_byte_string_output dll_scheme_get_sized_string_output # else # define scheme_get_sized_byte_string_output \ dll_scheme_get_sized_byte_string_output # define scheme_get_param dll_scheme_get_param # endif # define scheme_intern_symbol dll_scheme_intern_symbol # define scheme_lookup_global dll_scheme_lookup_global # define scheme_make_closed_prim_w_arity dll_scheme_make_closed_prim_w_arity # define scheme_make_integer_value dll_scheme_make_integer_value # define scheme_make_pair dll_scheme_make_pair # define scheme_make_prim_w_arity dll_scheme_make_prim_w_arity # if MZSCHEME_VERSION_MAJOR < 299 # define scheme_make_byte_string dll_scheme_make_string # define scheme_make_byte_string_output_port dll_scheme_make_string_output_port # else # define scheme_make_byte_string dll_scheme_make_byte_string # define scheme_make_byte_string_output_port \ dll_scheme_make_byte_string_output_port # endif # define scheme_make_struct_instance dll_scheme_make_struct_instance # define scheme_make_struct_names dll_scheme_make_struct_names # define scheme_make_struct_type dll_scheme_make_struct_type # define scheme_make_struct_values dll_scheme_make_struct_values # define scheme_make_type dll_scheme_make_type # define scheme_make_vector dll_scheme_make_vector # define scheme_malloc_fail_ok dll_scheme_malloc_fail_ok # define scheme_open_input_file dll_scheme_open_input_file # define scheme_primitive_module dll_scheme_primitive_module # define scheme_proper_list_length dll_scheme_proper_list_length # define scheme_raise dll_scheme_raise # define scheme_read dll_scheme_read # define scheme_register_static dll_scheme_register_static # define scheme_set_stack_base dll_scheme_set_stack_base # define scheme_signal_error dll_scheme_signal_error # define scheme_wrong_type dll_scheme_wrong_type # if MZSCHEME_VERSION_MAJOR >= 299 # define scheme_set_param dll_scheme_set_param # define scheme_current_config dll_scheme_current_config # define scheme_char_string_to_byte_string \ dll_scheme_char_string_to_byte_string # define scheme_char_string_to_path \ dll_scheme_char_string_to_path # define scheme_set_collects_path dll_scheme_set_collects_path # endif # define scheme_make_hash_table dll_scheme_make_hash_table # define scheme_hash_set dll_scheme_hash_set # define scheme_hash_get dll_scheme_hash_get # define scheme_make_double dll_scheme_make_double # define scheme_make_sized_byte_string dll_scheme_make_sized_byte_string # define scheme_namespace_require dll_scheme_namespace_require # define scheme_dynamic_wind dll_scheme_dynamic_wind # ifdef MZ_PRECISE_GC # define GC_malloc_one_tagged dll_GC_malloc_one_tagged # define GC_register_traversers dll_GC_register_traversers # endif # if MZSCHEME_VERSION_MAJOR >= 400 # ifdef TRAMPOLINED_MZVIM_STARTUP # define scheme_main_setup dll_scheme_main_setup # if defined(IMPLEMENT_THREAD_LOCAL_VIA_WIN_TLS) || MZSCHEME_VERSION_MAJOR >= 603 # define scheme_register_tls_space dll_scheme_register_tls_space # endif # endif # define scheme_init_collection_paths dll_scheme_init_collection_paths # define scheme_malloc_immobile_box dll_scheme_malloc_immobile_box # define scheme_free_immobile_box dll_scheme_free_immobile_box # endif # if MZSCHEME_VERSION_MAJOR >= 600 # define scheme_embedded_load dll_scheme_embedded_load # define scheme_register_embedded_load dll_scheme_register_embedded_load # define scheme_set_config_path dll_scheme_set_config_path # endif # if MZSCHEME_VERSION_MAJOR >= 500 # if defined(IMPLEMENT_THREAD_LOCAL_VIA_WIN_TLS) || defined(IMPLEMENT_THREAD_LOCAL_EXTERNALLY_VIA_PROC) // define as function for macro in schthread.h Thread_Local_Variables * scheme_external_get_thread_local_variables(void) { return dll_scheme_external_get_thread_local_variables(); } # endif # endif #endif typedef struct { char *name; void **ptr; } Thunk_Info; static Thunk_Info mzgc_imports[] = { {"GC_malloc", (void **)&dll_GC_malloc}, {"GC_malloc_atomic", (void **)&dll_GC_malloc_atomic}, {NULL, NULL}}; static Thunk_Info mzsch_imports[] = { {"scheme_eof", (void **)&dll_scheme_eof}, {"scheme_false", (void **)&dll_scheme_false}, {"scheme_void", (void **)&dll_scheme_void}, {"scheme_null", (void **)&dll_scheme_null}, {"scheme_true", (void **)&dll_scheme_true}, #if !defined(USE_THREAD_LOCAL) && !defined(LINK_EXTENSIONS_BY_TABLE) {"scheme_current_thread", (void **)&dll_scheme_current_thread_ptr}, #endif {"scheme_console_printf", (void **)&dll_scheme_console_printf_ptr}, {"scheme_console_output", (void **)&dll_scheme_console_output_ptr}, {"scheme_notify_multithread", (void **)&dll_scheme_notify_multithread_ptr}, {"scheme_add_global", (void **)&dll_scheme_add_global}, {"scheme_add_global_symbol", (void **)&dll_scheme_add_global_symbol}, {"scheme_apply", (void **)&dll_scheme_apply}, {"scheme_basic_env", (void **)&dll_scheme_basic_env}, # if MZSCHEME_VERSION_MAJOR >= 299 {"scheme_byte_string_to_char_string", (void **)&dll_scheme_byte_string_to_char_string}, {"scheme_make_path", (void **)&dll_scheme_make_path}, # endif {"scheme_builtin_value", (void **)&dll_scheme_builtin_value}, {"scheme_check_threads", (void **)&dll_scheme_check_threads}, {"scheme_close_input_port", (void **)&dll_scheme_close_input_port}, {"scheme_count_lines", (void **)&dll_scheme_count_lines}, {"scheme_current_continuation_marks", (void **)&dll_scheme_current_continuation_marks}, {"scheme_display", (void **)&dll_scheme_display}, {"scheme_display_to_string", (void **)&dll_scheme_display_to_string}, {"scheme_do_eval", (void **)&dll_scheme_do_eval}, {"scheme_dont_gc_ptr", (void **)&dll_scheme_dont_gc_ptr}, {"scheme_eq", (void **)&dll_scheme_eq}, {"scheme_eval", (void **)&dll_scheme_eval}, {"scheme_eval_string", (void **)&dll_scheme_eval_string}, {"scheme_eval_string_all", (void **)&dll_scheme_eval_string_all}, {"scheme_finish_primitive_module", (void **)&dll_scheme_finish_primitive_module}, # if MZSCHEME_VERSION_MAJOR < 299 {"scheme_format", (void **)&dll_scheme_format}, # else {"scheme_format_utf8", (void **)&dll_scheme_format_utf8}, {"scheme_get_param", (void **)&dll_scheme_get_param}, #endif {"scheme_gc_ptr_ok", (void **)&dll_scheme_gc_ptr_ok}, # if MZSCHEME_VERSION_MAJOR < 299 {"scheme_get_sized_string_output", (void **)&dll_scheme_get_sized_string_output}, # else {"scheme_get_sized_byte_string_output", (void **)&dll_scheme_get_sized_byte_string_output}, #endif {"scheme_intern_symbol", (void **)&dll_scheme_intern_symbol}, {"scheme_lookup_global", (void **)&dll_scheme_lookup_global}, {"scheme_make_closed_prim_w_arity", (void **)&dll_scheme_make_closed_prim_w_arity}, {"scheme_make_integer_value", (void **)&dll_scheme_make_integer_value}, {"scheme_make_pair", (void **)&dll_scheme_make_pair}, {"scheme_make_prim_w_arity", (void **)&dll_scheme_make_prim_w_arity}, # if MZSCHEME_VERSION_MAJOR < 299 {"scheme_make_string", (void **)&dll_scheme_make_string}, {"scheme_make_string_output_port", (void **)&dll_scheme_make_string_output_port}, # else {"scheme_make_byte_string", (void **)&dll_scheme_make_byte_string}, {"scheme_make_byte_string_output_port", (void **)&dll_scheme_make_byte_string_output_port}, # endif {"scheme_make_struct_instance", (void **)&dll_scheme_make_struct_instance}, {"scheme_make_struct_names", (void **)&dll_scheme_make_struct_names}, {"scheme_make_struct_type", (void **)&dll_scheme_make_struct_type}, {"scheme_make_struct_values", (void **)&dll_scheme_make_struct_values}, {"scheme_make_type", (void **)&dll_scheme_make_type}, {"scheme_make_vector", (void **)&dll_scheme_make_vector}, {"scheme_malloc_fail_ok", (void **)&dll_scheme_malloc_fail_ok}, {"scheme_open_input_file", (void **)&dll_scheme_open_input_file}, {"scheme_primitive_module", (void **)&dll_scheme_primitive_module}, {"scheme_proper_list_length", (void **)&dll_scheme_proper_list_length}, {"scheme_raise", (void **)&dll_scheme_raise}, {"scheme_read", (void **)&dll_scheme_read}, {"scheme_register_static", (void **)&dll_scheme_register_static}, {"scheme_set_stack_base", (void **)&dll_scheme_set_stack_base}, {"scheme_signal_error", (void **)&dll_scheme_signal_error}, {"scheme_wrong_type", (void **)&dll_scheme_wrong_type}, # if MZSCHEME_VERSION_MAJOR >= 299 {"scheme_set_param", (void **)&dll_scheme_set_param}, {"scheme_current_config", (void **)&dll_scheme_current_config}, {"scheme_char_string_to_byte_string", (void **)&dll_scheme_char_string_to_byte_string}, {"scheme_char_string_to_path", (void **)&dll_scheme_char_string_to_path}, {"scheme_set_collects_path", (void **)&dll_scheme_set_collects_path}, # endif {"scheme_make_hash_table", (void **)&dll_scheme_make_hash_table}, {"scheme_hash_set", (void **)&dll_scheme_hash_set}, {"scheme_hash_get", (void **)&dll_scheme_hash_get}, {"scheme_make_double", (void **)&dll_scheme_make_double}, {"scheme_make_sized_byte_string", (void **)&dll_scheme_make_sized_byte_string}, {"scheme_namespace_require", (void **)&dll_scheme_namespace_require}, {"scheme_dynamic_wind", (void **)&dll_scheme_dynamic_wind}, # ifdef MZ_PRECISE_GC {"GC_malloc_one_tagged", (void **)&dll_GC_malloc_one_tagged}, {"GC_register_traversers", (void **)&dll_GC_register_traversers}, # endif # if MZSCHEME_VERSION_MAJOR >= 400 # ifdef TRAMPOLINED_MZVIM_STARTUP {"scheme_main_setup", (void **)&dll_scheme_main_setup}, # if defined(IMPLEMENT_THREAD_LOCAL_VIA_WIN_TLS) || MZSCHEME_VERSION_MAJOR >= 603 {"scheme_register_tls_space", (void **)&dll_scheme_register_tls_space}, # endif # endif {"scheme_init_collection_paths", (void **)&dll_scheme_init_collection_paths}, {"scheme_malloc_immobile_box", (void **)&dll_scheme_malloc_immobile_box}, {"scheme_free_immobile_box", (void **)&dll_scheme_free_immobile_box}, # endif # if MZSCHEME_VERSION_MAJOR >= 500 # if defined(IMPLEMENT_THREAD_LOCAL_VIA_WIN_TLS) || defined(IMPLEMENT_THREAD_LOCAL_EXTERNALLY_VIA_PROC) {"scheme_external_get_thread_local_variables", (void **)&dll_scheme_external_get_thread_local_variables}, # endif # endif # if MZSCHEME_VERSION_MAJOR >= 600 {"scheme_embedded_load", (void **)&dll_scheme_embedded_load}, {"scheme_register_embedded_load", (void **)&dll_scheme_register_embedded_load}, {"scheme_set_config_path", (void **)&dll_scheme_set_config_path}, # endif {NULL, NULL}}; static HINSTANCE hMzGC = 0; static HINSTANCE hMzSch = 0; static void dynamic_mzscheme_end(void); static int mzscheme_runtime_link_init(char *sch_dll, char *gc_dll, int verbose); static int mzscheme_runtime_link_init(char *sch_dll, char *gc_dll, int verbose) { Thunk_Info *thunk = NULL; if (hMzGC && hMzSch) return OK; hMzSch = vimLoadLib(sch_dll); hMzGC = vimLoadLib(gc_dll); if (!hMzGC) { if (verbose) semsg(_(e_could_not_load_library_str_str), gc_dll, GetWin32Error()); return FAIL; } if (!hMzSch) { if (verbose) semsg(_(e_could_not_load_library_str_str), sch_dll, GetWin32Error()); return FAIL; } for (thunk = mzsch_imports; thunk->name; thunk++) { if ((*thunk->ptr = (void *)GetProcAddress(hMzSch, thunk->name)) == NULL) { FreeLibrary(hMzSch); hMzSch = 0; FreeLibrary(hMzGC); hMzGC = 0; if (verbose) semsg(_(e_could_not_load_library_function_str), thunk->name); return FAIL; } } for (thunk = mzgc_imports; thunk->name; thunk++) { if ((*thunk->ptr = (void *)GetProcAddress(hMzGC, thunk->name)) == NULL) { FreeLibrary(hMzSch); hMzSch = 0; FreeLibrary(hMzGC); hMzGC = 0; if (verbose) semsg(_(e_could_not_load_library_function_str), thunk->name); return FAIL; } } return OK; } int mzscheme_enabled(int verbose) { return mzscheme_runtime_link_init( (char *)p_mzschemedll, (char *)p_mzschemegcdll, verbose) == OK; } static void dynamic_mzscheme_end(void) { if (hMzSch) { FreeLibrary(hMzSch); hMzSch = 0; } if (hMzGC) { FreeLibrary(hMzGC); hMzGC = 0; } } #endif // DYNAMIC_MZSCHEME #if MZSCHEME_VERSION_MAJOR < 299 # define GUARANTEED_STRING_ARG(proc, num) GUARANTEE_STRING(proc, num) #else static Scheme_Object * guaranteed_byte_string_arg(char *proc, int num, int argc, Scheme_Object **argv) { if (SCHEME_BYTE_STRINGP(argv[num])) { return argv[num]; } else if (SCHEME_CHAR_STRINGP(argv[num])) { Scheme_Object *tmp = NULL; MZ_GC_DECL_REG(2); MZ_GC_VAR_IN_REG(0, argv[num]); MZ_GC_VAR_IN_REG(1, tmp); MZ_GC_REG(); tmp = scheme_char_string_to_byte_string(argv[num]); MZ_GC_UNREG(); return tmp; } else scheme_wrong_type(proc, "string", num, argc, argv); // unreachable return scheme_void; } # define GUARANTEED_STRING_ARG(proc, num) guaranteed_byte_string_arg(proc, num, argc, argv) #endif // need to put it here for dynamic stuff to work #if defined(INCLUDE_MZSCHEME_BASE) # include "mzscheme_base.c" #endif /* *======================================================================== * 1. MzScheme interpreter startup *======================================================================== */ static Scheme_Type mz_buffer_type; static Scheme_Type mz_window_type; static int initialized = FALSE; #ifdef DYNAMIC_MZSCHEME static int disabled = FALSE; #endif static int load_base_module_failed = FALSE; // global environment static Scheme_Env *environment = NULL; // output/error handlers static Scheme_Object *curout = NULL; static Scheme_Object *curerr = NULL; // exn:vim exception static Scheme_Object *exn_catching_apply = NULL; static Scheme_Object *exn_p = NULL; static Scheme_Object *exn_message = NULL; static Scheme_Object *vim_exn = NULL; // Vim Error exception #if !defined(MZ_PRECISE_GC) || MZSCHEME_VERSION_MAJOR < 400 static void *stack_base = NULL; #endif static long range_start; static long range_end; // MzScheme threads scheduling stuff static int mz_threads_allow = 0; #if defined(FEAT_GUI_MSWIN) static void CALLBACK timer_proc(HWND, UINT, UINT_PTR, DWORD); static UINT timer_id = 0; #elif defined(FEAT_GUI_GTK) static gboolean timer_proc(gpointer); static guint timer_id = 0; #elif defined(FEAT_GUI_MOTIF) static void timer_proc(XtPointer, XtIntervalId *); static XtIntervalId timer_id = (XtIntervalId)0; #endif #if !defined(FEAT_GUI_MSWIN) || defined(VIMDLL) // Win32 console and Unix void mzvim_check_threads(void) { // Last time MzScheme threads were scheduled static time_t mz_last_time = 0; if (mz_threads_allow && p_mzq > 0) { time_t now = time(NULL); if ((now - mz_last_time) * 1000 > p_mzq) { mz_last_time = now; scheme_check_threads(); } } } #endif #if defined(MZSCHEME_GUI_THREADS) || defined(PROTO) static void setup_timer(void); static void remove_timer(void); // timers are presented in GUI only # if defined(FEAT_GUI_MSWIN) static void CALLBACK timer_proc(HWND hwnd UNUSED, UINT uMsg UNUSED, UINT_PTR idEvent UNUSED, DWORD dwTime UNUSED) # elif defined(FEAT_GUI_GTK) static gboolean timer_proc(gpointer data UNUSED) # elif defined(FEAT_GUI_MOTIF) static void timer_proc(XtPointer timed_out UNUSED, XtIntervalId *interval_id UNUSED) # endif { scheme_check_threads(); # if defined(FEAT_GUI_GTK) return TRUE; // continue receiving notifications # elif defined(FEAT_GUI_MOTIF) // renew timeout if (mz_threads_allow && p_mzq > 0) timer_id = XtAppAddTimeOut(app_context, p_mzq, timer_proc, NULL); # endif } static void setup_timer(void) { # if defined(FEAT_GUI_MSWIN) timer_id = SetTimer(NULL, 0, p_mzq, timer_proc); # elif defined(FEAT_GUI_GTK) timer_id = g_timeout_add((guint)p_mzq, (GSourceFunc)timer_proc, NULL); # elif defined(FEAT_GUI_MOTIF) timer_id = XtAppAddTimeOut(app_context, p_mzq, timer_proc, NULL); # endif } static void remove_timer(void) { # if defined(FEAT_GUI_MSWIN) KillTimer(NULL, timer_id); # elif defined(FEAT_GUI_GTK) g_source_remove(timer_id); # elif defined(FEAT_GUI_MOTIF) XtRemoveTimeOut(timer_id); # endif timer_id = 0; } #endif // MZSCHEME_GUI_THREADS char * did_set_mzquantum(optset_T *args UNUSED) { #if defined(MZSCHEME_GUI_THREADS) // reset timer if (timer_id != 0) remove_timer(); if (mz_threads_allow && p_mzq > 0 && gui.in_use) setup_timer(); #endif return NULL; } static void notify_multithread(int on) { mz_threads_allow = on; #ifdef MZSCHEME_GUI_THREADS if (on && timer_id == 0 && p_mzq > 0 && gui.in_use) setup_timer(); if (!on && timer_id != 0) remove_timer(); #endif } void mzscheme_end(void) { // We can not unload the DLL. Racket's thread might be still alive. #if 0 #ifdef DYNAMIC_MZSCHEME dynamic_mzscheme_end(); #endif #endif } #if HAVE_TLS_SPACE # if defined(_MSC_VER) static __declspec(thread) void *tls_space; extern intptr_t _tls_index; # elif defined(__MINGW32__) static __thread void *tls_space; extern intptr_t _tls_index; # else static THREAD_LOCAL void *tls_space; static intptr_t _tls_index = 0; # endif #endif /* * mzscheme_main() is called early in main(). * We may call scheme_main_setup() which calls mzscheme_env_main() which then * trampolines into vim_main2(), which never returns. */ int mzscheme_main(void) { int argc = 0; char *argv = NULL; #ifdef DYNAMIC_MZSCHEME /* * Racket requires trampolined startup. We can not load it later. * If dynamic dll loading is failed, disable it. */ if (!mzscheme_enabled(FALSE)) { disabled = TRUE; return vim_main2(); } #endif #ifdef HAVE_TLS_SPACE scheme_register_tls_space(&tls_space, _tls_index); #endif #ifdef TRAMPOLINED_MZVIM_STARTUP return scheme_main_setup(TRUE, mzscheme_env_main, argc, &argv); #else return mzscheme_env_main(NULL, argc, &argv); #endif } static int mzscheme_env_main(Scheme_Env *env, int argc UNUSED, char **argv UNUSED) { #ifdef TRAMPOLINED_MZVIM_STARTUP // Scheme has created the environment for us environment = env; #else # ifdef MZ_PRECISE_GC Scheme_Object *dummy = NULL; MZ_GC_DECL_REG(1); MZ_GC_VAR_IN_REG(0, dummy); stack_base = &__gc_var_stack__; # else int dummy = 0; stack_base = (void *)&dummy; # endif #endif vim_main2(); // not reached, vim_main2() will loop until exit() return 0; } static Scheme_Object* load_base_module(void *data) { scheme_namespace_require(scheme_intern_symbol((char *)data)); return scheme_null; } static Scheme_Object * load_base_module_on_error(void *data UNUSED) { load_base_module_failed = TRUE; return scheme_null; } static int startup_mzscheme(void) { #ifndef TRAMPOLINED_MZVIM_STARTUP scheme_set_stack_base(stack_base, 1); #endif #ifndef TRAMPOLINED_MZVIM_STARTUP // in newer versions of precise GC the initial env has been created environment = scheme_basic_env(); #endif MZ_REGISTER_STATIC(environment); MZ_REGISTER_STATIC(curout); MZ_REGISTER_STATIC(curerr); MZ_REGISTER_STATIC(exn_catching_apply); MZ_REGISTER_STATIC(exn_p); MZ_REGISTER_STATIC(exn_message); MZ_REGISTER_STATIC(vim_exn); MZ_GC_CHECK(); #ifdef INCLUDE_MZSCHEME_BASE // invoke function from generated and included mzscheme_base.c declare_modules(environment); #endif // setup 'current-library-collection-paths' parameter # if MZSCHEME_VERSION_MAJOR >= 299 { Scheme_Object *coll_path = NULL; int mustfree = FALSE; char_u *s; MZ_GC_DECL_REG(1); MZ_GC_VAR_IN_REG(0, coll_path); MZ_GC_REG(); // workaround for dynamic loading on windows s = vim_getenv((char_u *)"PLTCOLLECTS", &mustfree); if (s != NULL) { coll_path = scheme_make_path((char *)s); MZ_GC_CHECK(); if (mustfree) vim_free(s); } # ifdef MZSCHEME_COLLECTS if (coll_path == NULL) { coll_path = scheme_make_path(MZSCHEME_COLLECTS); MZ_GC_CHECK(); } # endif if (coll_path != NULL) { scheme_set_collects_path(coll_path); MZ_GC_CHECK(); } MZ_GC_UNREG(); } # else # ifdef MZSCHEME_COLLECTS { Scheme_Object *coll_string = NULL; Scheme_Object *coll_pair = NULL; Scheme_Config *config = NULL; MZ_GC_DECL_REG(3); MZ_GC_VAR_IN_REG(0, coll_string); MZ_GC_VAR_IN_REG(1, coll_pair); MZ_GC_VAR_IN_REG(2, config); MZ_GC_REG(); coll_string = scheme_make_byte_string(MZSCHEME_COLLECTS); MZ_GC_CHECK(); coll_pair = scheme_make_pair(coll_string, scheme_null); MZ_GC_CHECK(); config = scheme_current_config(); MZ_GC_CHECK(); scheme_set_param(config, MZCONFIG_COLLECTION_PATHS, coll_pair); MZ_GC_CHECK(); MZ_GC_UNREG(); } # endif #endif # if MZSCHEME_VERSION_MAJOR >= 600 { Scheme_Object *config_path = NULL; int mustfree = FALSE; char_u *s; MZ_GC_DECL_REG(1); MZ_GC_VAR_IN_REG(0, config_path); MZ_GC_REG(); // workaround for dynamic loading on windows s = vim_getenv((char_u *)"PLTCONFIGDIR", &mustfree); if (s != NULL) { config_path = scheme_make_path((char *)s); MZ_GC_CHECK(); if (mustfree) vim_free(s); } #ifdef MZSCHEME_CONFIGDIR if (config_path == NULL) { config_path = scheme_make_path(MZSCHEME_CONFIGDIR); MZ_GC_CHECK(); } #endif if (config_path != NULL) { scheme_set_config_path(config_path); MZ_GC_CHECK(); } MZ_GC_UNREG(); } # endif #if MZSCHEME_VERSION_MAJOR >= 400 scheme_init_collection_paths(environment, scheme_null); #endif /* * versions 4.x do not provide Scheme bindings by default * we need to add them explicitly */ { // use error handler to avoid abort scheme_dynamic_wind(NULL, load_base_module, NULL, load_base_module_on_error, "racket/base"); if (load_base_module_failed) { load_base_module_failed = FALSE; scheme_dynamic_wind(NULL, load_base_module, NULL, load_base_module_on_error, "scheme/base"); if (load_base_module_failed) return -1; } } register_vim_exn(); // use new environment to initialise exception handling init_exn_catching_apply(); // redirect output scheme_console_output = do_output; scheme_console_printf = do_printf; #ifdef HAVE_SANDBOX { Scheme_Object *make_security_guard = NULL; MZ_GC_DECL_REG(1); MZ_GC_VAR_IN_REG(0, make_security_guard); MZ_GC_REG(); #if MZSCHEME_VERSION_MAJOR < 400 { Scheme_Object *make_security_guard_symbol = NULL; MZ_GC_DECL_REG(1); MZ_GC_VAR_IN_REG(0, make_security_guard_symbol); MZ_GC_REG(); make_security_guard_symbol = scheme_intern_symbol("make-security-guard"); MZ_GC_CHECK(); make_security_guard = scheme_lookup_global( make_security_guard_symbol, environment); MZ_GC_UNREG(); } #else make_security_guard = scheme_builtin_value("make-security-guard"); MZ_GC_CHECK(); #endif // setup sandbox guards if (make_security_guard != NULL) { Scheme_Object *args[3] = {NULL, NULL, NULL}; Scheme_Object *guard = NULL; Scheme_Config *config = NULL; MZ_GC_DECL_REG(5); MZ_GC_ARRAY_VAR_IN_REG(0, args, 3); MZ_GC_VAR_IN_REG(3, guard); MZ_GC_VAR_IN_REG(4, config); MZ_GC_REG(); config = scheme_current_config(); MZ_GC_CHECK(); args[0] = scheme_get_param(config, MZCONFIG_SECURITY_GUARD); MZ_GC_CHECK(); args[1] = scheme_make_prim_w_arity(sandbox_file_guard, "sandbox-file-guard", 3, 3); args[2] = scheme_make_prim_w_arity(sandbox_network_guard, "sandbox-network-guard", 4, 4); guard = scheme_apply(make_security_guard, 3, args); MZ_GC_CHECK(); scheme_set_param(config, MZCONFIG_SECURITY_GUARD, guard); MZ_GC_CHECK(); MZ_GC_UNREG(); } MZ_GC_UNREG(); } #endif // Create buffer and window types for use in Scheme code mz_buffer_type = scheme_make_type(""); MZ_GC_CHECK(); mz_window_type = scheme_make_type(""); MZ_GC_CHECK(); #ifdef MZ_PRECISE_GC GC_register_traversers(mz_buffer_type, buffer_size_proc, buffer_mark_proc, buffer_fixup_proc, TRUE, TRUE); GC_register_traversers(mz_window_type, window_size_proc, window_mark_proc, window_fixup_proc, TRUE, TRUE); #endif make_modules(); /* * setup callback to receive notifications * whether thread scheduling is (or not) required */ scheme_notify_multithread = notify_multithread; return 0; } /* * This routine is called for each new invocation of MzScheme * to make sure things are properly initialized. */ static int mzscheme_init(void) { if (!initialized) { #ifdef DYNAMIC_MZSCHEME if (disabled || !mzscheme_enabled(TRUE)) { emsg(_(e_sorry_this_command_is_disabled_the_mzscheme_libraries_could_not_be_loaded)); return -1; } #endif if (load_base_module_failed || startup_mzscheme()) { emsg(_(e_sorry_this_command_is_disabled_the_mzscheme_racket_base_module_could_not_be_loaded)); return -1; } initialized = TRUE; } { Scheme_Config *config = NULL; MZ_GC_DECL_REG(1); MZ_GC_VAR_IN_REG(0, config); MZ_GC_REG(); config = scheme_current_config(); MZ_GC_CHECK(); // recreate ports each call effectively clearing these ones curout = scheme_make_byte_string_output_port(); MZ_GC_CHECK(); curerr = scheme_make_byte_string_output_port(); MZ_GC_CHECK(); scheme_set_param(config, MZCONFIG_OUTPUT_PORT, curout); MZ_GC_CHECK(); scheme_set_param(config, MZCONFIG_ERROR_PORT, curerr); MZ_GC_CHECK(); MZ_GC_UNREG(); } return 0; } /* *======================================================================== * 2. External Interface *======================================================================== */ /* * Evaluate command with exception handling */ static int eval_with_exn_handling(void *data, Scheme_Closed_Prim *what, Scheme_Object **ret) { Scheme_Object *value = NULL; Scheme_Object *exn = NULL; Scheme_Object *prim = NULL; MZ_GC_DECL_REG(3); MZ_GC_VAR_IN_REG(0, value); MZ_GC_VAR_IN_REG(1, exn); MZ_GC_VAR_IN_REG(2, prim); MZ_GC_REG(); prim = scheme_make_closed_prim_w_arity(what, data, "mzvim", 0, 0); MZ_GC_CHECK(); value = _apply_thunk_catch_exceptions(prim, &exn); MZ_GC_CHECK(); if (!value) { value = extract_exn_message(exn); // Got an exn? if (value) { scheme_display(value, curerr); // Send to stderr-vim MZ_GC_CHECK(); do_flush(); } MZ_GC_UNREG(); // `raise' was called on some arbitrary value return FAIL; } if (ret != NULL) // if pointer to retval supported give it up *ret = value; // Print any result, as long as it's not a void else if (!SCHEME_VOIDP(value)) { scheme_display(value, curout); // Send to stdout-vim MZ_GC_CHECK(); } do_flush(); MZ_GC_UNREG(); return OK; } /* * :mzscheme */ static int do_mzscheme_command(exarg_T *eap, void *data, Scheme_Closed_Prim *what) { if (mzscheme_init()) return FAIL; range_start = eap->line1; range_end = eap->line2; return eval_with_exn_handling(data, what, NULL); } /* * Routine called by VIM when deleting a buffer */ void mzscheme_buffer_free(buf_T *buf) { if (buf->b_mzscheme_ref == NULL) return; vim_mz_buffer *bp = NULL; MZ_GC_DECL_REG(1); MZ_GC_VAR_IN_REG(0, bp); MZ_GC_REG(); bp = BUFFER_REF(buf); bp->buf = INVALID_BUFFER_VALUE; #ifndef MZ_PRECISE_GC scheme_gc_ptr_ok(bp); #else scheme_free_immobile_box(buf->b_mzscheme_ref); #endif buf->b_mzscheme_ref = NULL; MZ_GC_CHECK(); MZ_GC_UNREG(); } /* * Routine called by VIM when deleting a Window */ void mzscheme_window_free(win_T *win) { if (win->w_mzscheme_ref == NULL) return; vim_mz_window *wp = NULL; MZ_GC_DECL_REG(1); MZ_GC_VAR_IN_REG(0, wp); MZ_GC_REG(); wp = WINDOW_REF(win); wp->win = INVALID_WINDOW_VALUE; #ifndef MZ_PRECISE_GC scheme_gc_ptr_ok(wp); #else scheme_free_immobile_box(win->w_mzscheme_ref); #endif win->w_mzscheme_ref = NULL; MZ_GC_CHECK(); MZ_GC_UNREG(); } /* * ":mzscheme" (or ":mz") */ void ex_mzscheme(exarg_T *eap) { char_u *script; script = script_get(eap, eap->arg); if (eap->skip) return; if (script == NULL) do_mzscheme_command(eap, eap->arg, do_eval); else { do_mzscheme_command(eap, script, do_eval); vim_free(script); } } static Scheme_Object * do_load(void *data, int noargc UNUSED, Scheme_Object **noargv UNUSED) { Scheme_Object *expr = NULL; Scheme_Object *result = NULL; char *file = NULL; Port_Info *pinfo = (Port_Info *)data; MZ_GC_DECL_REG(3); MZ_GC_VAR_IN_REG(0, expr); MZ_GC_VAR_IN_REG(1, result); MZ_GC_VAR_IN_REG(2, file); MZ_GC_REG(); file = (char *)scheme_malloc_fail_ok(scheme_malloc_atomic, MAXPATHL + 1); MZ_GC_CHECK(); // make Vim expansion expand_env((char_u *)pinfo->name, (char_u *)file, MAXPATHL); pinfo->port = scheme_open_input_file(file, "mzfile"); MZ_GC_CHECK(); scheme_count_lines(pinfo->port); // to get accurate read error location MZ_GC_CHECK(); // Like REPL but print only last result while (!SCHEME_EOFP(expr = scheme_read(pinfo->port))) { result = scheme_eval(expr, environment); MZ_GC_CHECK(); } // errors will be caught in do_mzscheme_command and ex_mzfile scheme_close_input_port(pinfo->port); MZ_GC_CHECK(); pinfo->port = NULL; MZ_GC_UNREG(); return result; } /* * :mzfile */ void ex_mzfile(exarg_T *eap) { Port_Info pinfo = {NULL, NULL}; MZ_GC_DECL_REG(1); MZ_GC_VAR_IN_REG(0, pinfo.port); MZ_GC_REG(); pinfo.name = (char *)eap->arg; if (do_mzscheme_command(eap, &pinfo, do_load) != OK && pinfo.port != NULL) // looks like port was not closed { scheme_close_input_port(pinfo.port); MZ_GC_CHECK(); } MZ_GC_UNREG(); } /* *======================================================================== * Exception handling code -- cribbed form the MzScheme sources and * Matthew Flatt's "Inside PLT MzScheme" document. *======================================================================== */ static void init_exn_catching_apply(void) { if (exn_catching_apply) return; char *e = "(lambda (thunk) " "(with-handlers ([void (lambda (exn) (cons #f exn))]) " "(cons #t (thunk))))"; exn_catching_apply = scheme_eval_string(e, environment); MZ_GC_CHECK(); exn_p = scheme_builtin_value("exn?"); MZ_GC_CHECK(); exn_message = scheme_builtin_value("exn-message"); MZ_GC_CHECK(); } /* * This function applies a thunk, returning the Scheme value if there's * no exception, otherwise returning NULL and setting *exn to the raised * value (usually an exn structure). */ static Scheme_Object * _apply_thunk_catch_exceptions(Scheme_Object *f, Scheme_Object **exn) { Scheme_Object *v; v = _scheme_apply(exn_catching_apply, 1, &f); // v is a pair: (cons #t value) or (cons #f exn) if (SCHEME_TRUEP(SCHEME_CAR(v))) return SCHEME_CDR(v); else { *exn = SCHEME_CDR(v); return NULL; } } static Scheme_Object * extract_exn_message(Scheme_Object *v) { if (SCHEME_TRUEP(_scheme_apply(exn_p, 1, &v))) return _scheme_apply(exn_message, 1, &v); else return NULL; // Not an exn structure } static Scheme_Object * do_eval(void *s, int noargc UNUSED, Scheme_Object **noargv UNUSED) { return scheme_eval_string_all((char *)s, environment, TRUE); } /* *======================================================================== * 3. MzScheme I/O Handlers *======================================================================== */ static void do_intrnl_output(char *mesg, int error) { char *p, *prev; prev = mesg; p = strchr(prev, '\n'); while (p) { *p = '\0'; if (error) emsg(prev); else msg(prev); prev = p + 1; p = strchr(prev, '\n'); } if (error) emsg(prev); else msg(prev); } static void do_output(char *mesg, OUTPUT_LEN_TYPE len UNUSED) { // TODO: use len, the string may not be NUL terminated do_intrnl_output(mesg, 0); } static void do_err_output(char *mesg) { do_intrnl_output(mesg, 1); } static void do_printf(char *format, ...) { do_intrnl_output(format, 1); } static void do_flush(void) { char *buff; OUTPUT_LEN_TYPE length; buff = scheme_get_sized_byte_string_output(curerr, &length); MZ_GC_CHECK(); if (length) { do_err_output(buff); return; } buff = scheme_get_sized_byte_string_output(curout, &length); MZ_GC_CHECK(); if (length) do_output(buff, length); } /* *======================================================================== * 4. Implementation of the Vim Features for MzScheme *======================================================================== */ /* * (command {command-string}) */ static Scheme_Object * vim_command(void *data, int argc, Scheme_Object **argv) { Vim_Prim *prim = (Vim_Prim *)data; Scheme_Object *cmd = NULL; MZ_GC_DECL_REG(1); MZ_GC_VAR_IN_REG(0, cmd); MZ_GC_REG(); cmd = GUARANTEED_STRING_ARG(prim->name, 0); // may be use do_cmdline_cmd? do_cmdline(BYTE_STRING_VALUE(cmd), NULL, NULL, DOCMD_NOWAIT|DOCMD_VERBOSE); update_screen(UPD_VALID); MZ_GC_UNREG(); raise_if_error(); return scheme_void; } /* * (eval {expr-string}) */ static Scheme_Object * vim_eval(void *data UNUSED, int argc UNUSED, Scheme_Object **argv UNUSED) { #ifdef FEAT_EVAL Vim_Prim *prim = (Vim_Prim *)data; Scheme_Object *result = NULL; typval_T *vim_result; Scheme_Object *expr = NULL; MZ_GC_DECL_REG(2); MZ_GC_VAR_IN_REG(0, result); MZ_GC_VAR_IN_REG(1, expr); MZ_GC_REG(); expr = GUARANTEED_STRING_ARG(prim->name, 0); vim_result = eval_expr(BYTE_STRING_VALUE(expr), NULL); if (vim_result == NULL) raise_vim_exn(_("invalid expression")); result = vim_to_mzscheme(vim_result); MZ_GC_CHECK(); free_tv(vim_result); MZ_GC_UNREG(); return result; #else raise_vim_exn(_("expressions disabled at compile time")); // unreachable return scheme_false; #endif } /* * (range-start) */ static Scheme_Object * get_range_start(void *data UNUSED, int argc UNUSED, Scheme_Object **argv UNUSED) { return scheme_make_integer(range_start); } /* * (range-end) */ static Scheme_Object * get_range_end(void *data UNUSED, int argc UNUSED, Scheme_Object **argv UNUSED) { return scheme_make_integer(range_end); } /* * (beep) */ static Scheme_Object * mzscheme_beep(void *data UNUSED, int argc UNUSED, Scheme_Object **argv UNUSED) { vim_beep(BO_LANG); return scheme_void; } static Scheme_Object *M_global = NULL; /* * (get-option {option-name}) [buffer/window] */ static Scheme_Object * get_option(void *data, int argc, Scheme_Object **argv) { Vim_Prim *prim = (Vim_Prim *)data; long value; char *strval; getoption_T rc; Scheme_Object *rval = NULL; Scheme_Object *name = NULL; int scope = 0; buf_T *save_curb = curbuf; win_T *save_curw = curwin; MZ_GC_DECL_REG(2); MZ_GC_VAR_IN_REG(0, rval); MZ_GC_VAR_IN_REG(1, name); MZ_GC_REG(); name = GUARANTEED_STRING_ARG(prim->name, 0); if (argc > 1) { if (M_global == NULL) { MZ_REGISTER_STATIC(M_global); M_global = scheme_intern_symbol("global"); MZ_GC_CHECK(); } if (argv[1] == M_global) scope = OPT_GLOBAL; else if (SCHEME_VIMBUFFERP(argv[1])) { curbuf = get_valid_buffer(argv[1]); scope = OPT_LOCAL; } else if (SCHEME_VIMWINDOWP(argv[1])) { win_T *win = get_valid_window(argv[1]); curwin = win; curbuf = win->w_buffer; scope = OPT_LOCAL; } else scheme_wrong_type(prim->name, "vim-buffer/window", 1, argc, argv); } rc = get_option_value(BYTE_STRING_VALUE(name), &value, (char_u **)&strval, NULL, scope); curbuf = save_curb; curwin = save_curw; switch (rc) { case gov_bool: case gov_number: MZ_GC_UNREG(); return scheme_make_integer_value(value); case gov_string: rval = scheme_make_byte_string(strval); MZ_GC_CHECK(); vim_free(strval); MZ_GC_UNREG(); return rval; case gov_hidden_bool: case gov_hidden_number: case gov_hidden_string: MZ_GC_UNREG(); raise_vim_exn(_("hidden option")); //NOTREACHED case gov_unknown: MZ_GC_UNREG(); raise_vim_exn(_("unknown option")); //NOTREACHED } // unreachable return scheme_void; } /* * (set-option {option-changing-string} [buffer/window]) */ static Scheme_Object * set_option(void *data, int argc, Scheme_Object **argv) { char_u *command = NULL; int scope = 0; buf_T *save_curb = curbuf; win_T *save_curw = curwin; Vim_Prim *prim = (Vim_Prim *)data; Scheme_Object *cmd = NULL; MZ_GC_DECL_REG(1); MZ_GC_VAR_IN_REG(0, cmd); MZ_GC_REG(); cmd = GUARANTEED_STRING_ARG(prim->name, 0); if (argc > 1) { if (M_global == NULL) { MZ_REGISTER_STATIC(M_global); M_global = scheme_intern_symbol("global"); MZ_GC_CHECK(); } if (argv[1] == M_global) scope = OPT_GLOBAL; else if (SCHEME_VIMBUFFERP(argv[1])) { curbuf = get_valid_buffer(argv[1]); scope = OPT_LOCAL; } else if (SCHEME_VIMWINDOWP(argv[1])) { win_T *win = get_valid_window(argv[1]); curwin = win; curbuf = win->w_buffer; scope = OPT_LOCAL; } else scheme_wrong_type(prim->name, "vim-buffer/window", 1, argc, argv); } // do_set can modify cmd, make copy command = vim_strsave(BYTE_STRING_VALUE(cmd)); MZ_GC_UNREG(); do_set(command, scope); vim_free(command); update_screen(UPD_NOT_VALID); curbuf = save_curb; curwin = save_curw; raise_if_error(); return scheme_void; } /* *=========================================================================== * 5. Vim Window-related Manipulation Functions *=========================================================================== */ /* * (curr-win) */ static Scheme_Object * get_curr_win(void *data UNUSED, int argc UNUSED, Scheme_Object **argv UNUSED) { return (Scheme_Object *)get_vim_curr_window(); } /* * (win-count) */ static Scheme_Object * get_window_count(void *data UNUSED, int argc UNUSED, Scheme_Object **argv UNUSED) { int n = 0; win_T *w; FOR_ALL_WINDOWS(w) ++n; return scheme_make_integer(n); } /* * (get-win-list [buffer]) */ static Scheme_Object * get_window_list(void *data, int argc, Scheme_Object **argv) { Vim_Prim *prim = (Vim_Prim *)data; vim_mz_buffer *buf; Scheme_Object *list; win_T *w = firstwin; buf = get_buffer_arg(prim->name, 0, argc, argv); list = scheme_null; for ( ; w != NULL; w = w->w_next) if (w->w_buffer == buf->buf) { list = scheme_make_pair(window_new(w), list); MZ_GC_CHECK(); } return list; } static Scheme_Object * window_new(win_T *win) { vim_mz_window *self = NULL; MZ_GC_DECL_REG(1); MZ_GC_VAR_IN_REG(0, self); // We need to handle deletion of windows underneath us. // If we add a "w_mzscheme_ref" field to the win_T structure, // then we can get at it in win_free() in vim. // // On a win_free() we set the Scheme object's win_T *field // to an invalid value. We trap all uses of a window // object, and reject them if the win_T *field is invalid. if (win->w_mzscheme_ref != NULL) return (Scheme_Object *)WINDOW_REF(win); MZ_GC_REG(); self = scheme_malloc_fail_ok(scheme_malloc_tagged, sizeof(vim_mz_window)); CLEAR_POINTER(self); #ifndef MZ_PRECISE_GC scheme_dont_gc_ptr(self); // because win isn't visible to GC #else win->w_mzscheme_ref = scheme_malloc_immobile_box(NULL); #endif MZ_GC_CHECK(); WINDOW_REF(win) = self; MZ_GC_CHECK(); self->win = win; self->so.type = mz_window_type; MZ_GC_UNREG(); return (Scheme_Object *)self; } /* * (get-win-num [window]) */ static Scheme_Object * get_window_num(void *data UNUSED, int argc UNUSED, Scheme_Object **argv UNUSED) { int nr = 1; Vim_Prim *prim = (Vim_Prim *)data; win_T *win = get_window_arg(prim->name, 0, argc, argv)->win; win_T *wp; for (wp = firstwin; wp != win; wp = wp->w_next) ++nr; return scheme_make_integer(nr); } /* * (get-win-by-num {windownum}) */ static Scheme_Object * get_window_by_num(void *data, int argc, Scheme_Object **argv) { Vim_Prim *prim = (Vim_Prim *)data; win_T *win = firstwin; int fnum; fnum = SCHEME_INT_VAL(GUARANTEE_INTEGER(prim->name, 0)); if (fnum < 1) scheme_signal_error(_("window index is out of range")); for ( ; win != NULL; win = win->w_next, --fnum) if (fnum == 1) // to be 1-based return window_new(win); return scheme_false; } /* * (get-win-buffer [window]) */ static Scheme_Object * get_window_buffer(void *data, int argc, Scheme_Object **argv) { Vim_Prim *prim = (Vim_Prim *)data; vim_mz_window *win = get_window_arg(prim->name, 0, argc, argv); return buffer_new(win->win->w_buffer); } /* * (get-win-height [window]) */ static Scheme_Object * get_window_height(void *data, int argc, Scheme_Object **argv) { Vim_Prim *prim = (Vim_Prim *)data; vim_mz_window *win = get_window_arg(prim->name, 0, argc, argv); return scheme_make_integer(win->win->w_height); } /* * (set-win-height {height} [window]) */ static Scheme_Object * set_window_height(void *data, int argc, Scheme_Object **argv) { Vim_Prim *prim = (Vim_Prim *)data; vim_mz_window *win; win_T *savewin; int height; win = get_window_arg(prim->name, 1, argc, argv); height = SCHEME_INT_VAL(GUARANTEE_INTEGER(prim->name, 0)); #ifdef FEAT_GUI need_mouse_correct = TRUE; #endif savewin = curwin; curwin = win->win; win_setheight(height); curwin = savewin; raise_if_error(); return scheme_void; } /* * (get-win-width [window]) */ static Scheme_Object * get_window_width(void *data, int argc, Scheme_Object **argv) { Vim_Prim *prim = (Vim_Prim *)data; vim_mz_window *win = get_window_arg(prim->name, 0, argc, argv); return scheme_make_integer(win->win->w_width); } /* * (set-win-width {width} [window]) */ static Scheme_Object * set_window_width(void *data, int argc, Scheme_Object **argv) { Vim_Prim *prim = (Vim_Prim *)data; vim_mz_window *win; win_T *savewin; int width = 0; win = get_window_arg(prim->name, 1, argc, argv); width = SCHEME_INT_VAL(GUARANTEE_INTEGER(prim->name, 0)); # ifdef FEAT_GUI need_mouse_correct = TRUE; # endif savewin = curwin; curwin = win->win; win_setwidth(width); curwin = savewin; raise_if_error(); return scheme_void; } /* * (get-cursor [window]) -> (line . col) */ static Scheme_Object * get_cursor(void *data, int argc, Scheme_Object **argv) { Vim_Prim *prim = (Vim_Prim *)data; vim_mz_window *win; pos_T pos; win = get_window_arg(prim->name, 0, argc, argv); pos = win->win->w_cursor; return scheme_make_pair(scheme_make_integer_value((long)pos.lnum), scheme_make_integer_value((long)pos.col + 1)); } /* * (set-cursor (line . col) [window]) */ static Scheme_Object * set_cursor(void *data, int argc, Scheme_Object **argv) { Vim_Prim *prim = (Vim_Prim *)data; vim_mz_window *win; long lnum = 0; long col = 0; #ifdef HAVE_SANDBOX sandbox_check(); #endif win = get_window_arg(prim->name, 1, argc, argv); GUARANTEE_PAIR(prim->name, 0); if (!SCHEME_INTP(SCHEME_CAR(argv[0])) || !SCHEME_INTP(SCHEME_CDR(argv[0]))) scheme_wrong_type(prim->name, "integer pair", 0, argc, argv); lnum = SCHEME_INT_VAL(SCHEME_CAR(argv[0])); col = SCHEME_INT_VAL(SCHEME_CDR(argv[0])) - 1; check_line_range(lnum, win->win->w_buffer); // don't know how to catch invalid column value win->win->w_cursor.lnum = lnum; win->win->w_cursor.col = col; win->win->w_set_curswant = TRUE; update_screen(UPD_VALID); raise_if_error(); return scheme_void; } /* *=========================================================================== * 6. Vim Buffer-related Manipulation Functions *=========================================================================== */ /* * (open-buff {filename}) */ static Scheme_Object * mzscheme_open_buffer(void *data, int argc, Scheme_Object **argv) { Vim_Prim *prim = (Vim_Prim *)data; int num = 0; Scheme_Object *onum = NULL; Scheme_Object *buf = NULL; Scheme_Object *fname; MZ_GC_DECL_REG(3); MZ_GC_VAR_IN_REG(0, onum); MZ_GC_VAR_IN_REG(1, buf); MZ_GC_VAR_IN_REG(2, fname); MZ_GC_REG(); fname = GUARANTEED_STRING_ARG(prim->name, 0); #ifdef HAVE_SANDBOX sandbox_check(); #endif // TODO make open existing file num = buflist_add(BYTE_STRING_VALUE(fname), BLN_LISTED | BLN_CURBUF); if (num == 0) raise_vim_exn(_("couldn't open buffer")); onum = scheme_make_integer(num); buf = get_buffer_by_num(data, 1, &onum); MZ_GC_UNREG(); return buf; } /* * (get-buff-by-num {buffernum}) */ static Scheme_Object * get_buffer_by_num(void *data, int argc, Scheme_Object **argv) { Vim_Prim *prim = (Vim_Prim *)data; buf_T *buf; int fnum; fnum = SCHEME_INT_VAL(GUARANTEE_INTEGER(prim->name, 0)); FOR_ALL_BUFFERS(buf) if (buf->b_fnum == fnum) return buffer_new(buf); return scheme_false; } /* * (get-buff-by-name {buffername}) */ static Scheme_Object * get_buffer_by_name(void *data, int argc, Scheme_Object **argv) { Vim_Prim *prim = (Vim_Prim *)data; buf_T *buf; Scheme_Object *buffer = NULL; Scheme_Object *fname = NULL; MZ_GC_DECL_REG(2); MZ_GC_VAR_IN_REG(0, buffer); MZ_GC_VAR_IN_REG(1, fname); MZ_GC_REG(); fname = GUARANTEED_STRING_ARG(prim->name, 0); buffer = scheme_false; FOR_ALL_BUFFERS(buf) { if (buf->b_ffname == NULL || buf->b_sfname == NULL) // empty string { if (BYTE_STRING_VALUE(fname)[0] == NUL) buffer = buffer_new(buf); } else if (!fnamecmp(buf->b_ffname, BYTE_STRING_VALUE(fname)) || !fnamecmp(buf->b_sfname, BYTE_STRING_VALUE(fname))) { // either short or long filename matches buffer = buffer_new(buf); } } MZ_GC_UNREG(); return buffer; } /* * (get-next-buff [buffer]) */ static Scheme_Object * get_next_buffer(void *data, int argc, Scheme_Object **argv) { Vim_Prim *prim = (Vim_Prim *)data; buf_T *buf = get_buffer_arg(prim->name, 0, argc, argv)->buf; if (buf->b_next == NULL) return scheme_false; else return buffer_new(buf->b_next); } /* * (get-prev-buff [buffer]) */ static Scheme_Object * get_prev_buffer(void *data, int argc, Scheme_Object **argv) { Vim_Prim *prim = (Vim_Prim *)data; buf_T *buf = get_buffer_arg(prim->name, 0, argc, argv)->buf; if (buf->b_prev == NULL) return scheme_false; else return buffer_new(buf->b_prev); } /* * (get-buff-num [buffer]) */ static Scheme_Object * get_buffer_num(void *data, int argc, Scheme_Object **argv) { Vim_Prim *prim = (Vim_Prim *)data; vim_mz_buffer *buf = get_buffer_arg(prim->name, 0, argc, argv); return scheme_make_integer(buf->buf->b_fnum); } /* * (buff-count) */ static Scheme_Object * get_buffer_count(void *data UNUSED, int argc UNUSED, Scheme_Object **argv UNUSED) { buf_T *b; int n = 0; FOR_ALL_BUFFERS(b) ++n; return scheme_make_integer(n); } /* * (get-buff-name [buffer]) */ static Scheme_Object * get_buffer_name(void *data, int argc, Scheme_Object **argv) { Vim_Prim *prim = (Vim_Prim *)data; vim_mz_buffer *buf = get_buffer_arg(prim->name, 0, argc, argv); return scheme_make_byte_string((char *)buf->buf->b_ffname); } /* * (curr-buff) */ static Scheme_Object * get_curr_buffer(void *data UNUSED, int argc UNUSED, Scheme_Object **argv UNUSED) { return (Scheme_Object *)get_vim_curr_buffer(); } static Scheme_Object * buffer_new(buf_T *buf) { vim_mz_buffer *self = NULL; MZ_GC_DECL_REG(1); MZ_GC_VAR_IN_REG(0, self); // We need to handle deletion of buffers underneath us. // If we add a "b_mzscheme_ref" field to the buf_T structure, // then we can get at it in buf_freeall() in vim. if (buf->b_mzscheme_ref) return (Scheme_Object *)BUFFER_REF(buf); MZ_GC_REG(); self = scheme_malloc_fail_ok(scheme_malloc_tagged, sizeof(vim_mz_buffer)); CLEAR_POINTER(self); #ifndef MZ_PRECISE_GC scheme_dont_gc_ptr(self); // because buf isn't visible to GC #else buf->b_mzscheme_ref = scheme_malloc_immobile_box(NULL); #endif MZ_GC_CHECK(); BUFFER_REF(buf) = self; MZ_GC_CHECK(); self->buf = buf; self->so.type = mz_buffer_type; MZ_GC_UNREG(); return (Scheme_Object *)self; } /* * (get-buff-size [buffer]) * * Get the size (number of lines) in the current buffer. */ static Scheme_Object * get_buffer_size(void *data, int argc, Scheme_Object **argv) { Vim_Prim *prim = (Vim_Prim *)data; vim_mz_buffer *buf = get_buffer_arg(prim->name, 0, argc, argv); return scheme_make_integer(buf->buf->b_ml.ml_line_count); } /* * (get-buff-line {linenr} [buffer]) * * Get a line from the specified buffer. The line number is * in Vim format (1-based). The line is returned as a MzScheme * string object. */ static Scheme_Object * get_buffer_line(void *data, int argc, Scheme_Object **argv) { Vim_Prim *prim = (Vim_Prim *)data; vim_mz_buffer *buf; int linenr; char_u *line; buf = get_buffer_arg(prim->name, 1, argc, argv); linenr = SCHEME_INT_VAL(GUARANTEE_INTEGER(prim->name, 0)); line = ml_get_buf(buf->buf, (linenr_T)linenr, FALSE); raise_if_error(); return scheme_make_byte_string((char *)line); } /* * (get-buff-line-list {start} {end} [buffer]) * * Get a list of lines from the specified buffer. The line numbers * are in Vim format (1-based). The range is from lo up to, but not * including, hi. The list is returned as a list of string objects. */ static Scheme_Object * get_buffer_line_list(void *data, int argc, Scheme_Object **argv) { Vim_Prim *prim = (Vim_Prim *)data; vim_mz_buffer *buf; int i, hi, lo, n; Scheme_Object *list = NULL; MZ_GC_DECL_REG(1); MZ_GC_VAR_IN_REG(0, list); MZ_GC_REG(); buf = get_buffer_arg(prim->name, 2, argc, argv); list = scheme_null; hi = SCHEME_INT_VAL(GUARANTEE_INTEGER(prim->name, 1)); lo = SCHEME_INT_VAL(GUARANTEE_INTEGER(prim->name, 0)); /* * Handle some error conditions */ if (lo < 0) lo = 0; if (hi < 0) hi = 0; if (hi < lo) hi = lo; n = hi - lo; for (i = n; i >= 0; --i) { Scheme_Object *str = scheme_make_byte_string( (char *)ml_get_buf(buf->buf, (linenr_T)(lo+i), FALSE)); raise_if_error(); // Set the list item list = scheme_make_pair(str, list); MZ_GC_CHECK(); } MZ_GC_UNREG(); return list; } /* * (set-buff-line {linenr} {string/#f} [buffer]) * * Replace a line in the specified buffer. The line number is * in Vim format (1-based). The replacement line is given as * an MzScheme string object. The object is checked for validity * and correct format. An exception is thrown if the values are not * the correct format. * * It returns a Scheme Object that indicates the length of the * string changed. */ static Scheme_Object * set_buffer_line(void *data, int argc, Scheme_Object **argv) { // First of all, we check the value of the supplied MzScheme object. // There are three cases: // 1. #f - this is a deletion. // 2. A string - this is a replacement. // 3. Anything else - this is an error. Vim_Prim *prim = (Vim_Prim *)data; vim_mz_buffer *buf; Scheme_Object *line = NULL; char *save; int n; MZ_GC_DECL_REG(1); MZ_GC_VAR_IN_REG(0, line); MZ_GC_REG(); #ifdef HAVE_SANDBOX sandbox_check(); #endif n = SCHEME_INT_VAL(GUARANTEE_INTEGER(prim->name, 0)); if (!SCHEME_STRINGP(argv[1]) && !SCHEME_FALSEP(argv[1])) scheme_wrong_type(prim->name, "string or #f", 1, argc, argv); line = argv[1]; buf = get_buffer_arg(prim->name, 2, argc, argv); check_line_range(n, buf->buf); if (SCHEME_FALSEP(line)) { buf_T *savebuf = curbuf; curbuf = buf->buf; if (u_savedel((linenr_T)n, 1L) == FAIL) { curbuf = savebuf; raise_vim_exn(_("cannot save undo information")); } else if (ml_delete((linenr_T)n) == FAIL) { curbuf = savebuf; raise_vim_exn(_("cannot delete line")); } if (buf->buf == curwin->w_buffer) mz_fix_cursor(n, n + 1, -1); deleted_lines_mark((linenr_T)n, 1L); curbuf = savebuf; MZ_GC_UNREG(); raise_if_error(); return scheme_void; } else { // Otherwise it's a line buf_T *savebuf = curbuf; save = string_to_line(line); curbuf = buf->buf; if (u_savesub((linenr_T)n) == FAIL) { curbuf = savebuf; vim_free(save); raise_vim_exn(_("cannot save undo information")); } else if (ml_replace((linenr_T)n, (char_u *)save, TRUE) == FAIL) { curbuf = savebuf; vim_free(save); raise_vim_exn(_("cannot replace line")); } else { vim_free(save); changed_bytes((linenr_T)n, 0); } curbuf = savebuf; // Check that the cursor is not beyond the end of the line now. if (buf->buf == curwin->w_buffer) check_cursor_col(); MZ_GC_UNREG(); raise_if_error(); return scheme_void; } } static void free_array(char **array) { char **curr = array; while (*curr != NULL) vim_free(*curr++); vim_free(array); } /* * (set-buff-line-list {start} {end} {string-list/#f/null} [buffer]) * * Replace a range of lines in the specified buffer. The line numbers are in * Vim format (1-based). The range is from lo up to, but not including, hi. * The replacement lines are given as a Scheme list of string objects. The * list is checked for validity and correct format. * * Errors are returned as a value of FAIL. The return value is OK on success. * If OK is returned and len_change is not NULL, *len_change is set to the * change in the buffer length. */ static Scheme_Object * set_buffer_line_list(void *data, int argc, Scheme_Object **argv) { // First of all, we check the type of the supplied MzScheme object. // There are three cases: // 1. #f - this is a deletion. // 2. A list - this is a replacement. // 3. Anything else - this is an error. Vim_Prim *prim = (Vim_Prim *)data; vim_mz_buffer *buf = NULL; Scheme_Object *line_list = NULL; int i, old_len, new_len, hi, lo; long extra; MZ_GC_DECL_REG(1); MZ_GC_VAR_IN_REG(0, line_list); MZ_GC_REG(); #ifdef HAVE_SANDBOX sandbox_check(); #endif lo = SCHEME_INT_VAL(GUARANTEE_INTEGER(prim->name, 0)); hi = SCHEME_INT_VAL(GUARANTEE_INTEGER(prim->name, 1)); if (!SCHEME_PAIRP(argv[2]) && !SCHEME_FALSEP(argv[2]) && !SCHEME_NULLP(argv[2])) scheme_wrong_type(prim->name, "list or #f", 2, argc, argv); line_list = argv[2]; buf = get_buffer_arg(prim->name, 3, argc, argv); old_len = hi - lo; if (old_len < 0) // process inverse values wisely { i = lo; lo = hi; hi = i; old_len = -old_len; } extra = 0; check_line_range(lo, buf->buf); // inclusive check_line_range(hi - 1, buf->buf); // exclusive if (SCHEME_FALSEP(line_list) || SCHEME_NULLP(line_list)) { buf_T *savebuf = curbuf; curbuf = buf->buf; if (u_savedel((linenr_T)lo, (long)old_len) == FAIL) { curbuf = savebuf; raise_vim_exn(_("cannot save undo information")); } else { for (i = 0; i < old_len; i++) if (ml_delete((linenr_T)lo) == FAIL) { curbuf = savebuf; raise_vim_exn(_("cannot delete line")); } if (buf->buf == curwin->w_buffer) mz_fix_cursor(lo, hi, -old_len); deleted_lines_mark((linenr_T)lo, (long)old_len); } curbuf = savebuf; MZ_GC_UNREG(); raise_if_error(); return scheme_void; } else { buf_T *savebuf = curbuf; // List new_len = scheme_proper_list_length(line_list); MZ_GC_CHECK(); if (new_len < 0) // improper or cyclic list scheme_wrong_type(prim->name, "proper list", 2, argc, argv); else { char **array = NULL; Scheme_Object *line = NULL; Scheme_Object *rest = NULL; MZ_GC_DECL_REG(2); MZ_GC_VAR_IN_REG(0, line); MZ_GC_VAR_IN_REG(1, rest); MZ_GC_REG(); array = ALLOC_CLEAR_MULT(char *, new_len + 1); rest = line_list; for (i = 0; i < new_len; ++i) { line = SCHEME_CAR(rest); rest = SCHEME_CDR(rest); if (!SCHEME_STRINGP(line)) { free_array(array); scheme_wrong_type(prim->name, "string-list", 2, argc, argv); } array[i] = string_to_line(line); } curbuf = buf->buf; if (u_save((linenr_T)(lo-1), (linenr_T)hi) == FAIL) { curbuf = savebuf; free_array(array); raise_vim_exn(_("cannot save undo information")); } /* * If the size of the range is reducing (ie, new_len < old_len) we * need to delete some old_len. We do this at the start, by * repeatedly deleting line "lo". */ for (i = 0; i < old_len - new_len; ++i) { if (ml_delete((linenr_T)lo) == FAIL) { curbuf = savebuf; free_array(array); raise_vim_exn(_("cannot delete line")); } extra--; } /* * For as long as possible, replace the existing old_len with the * new old_len. This is a more efficient operation, as it requires * less memory allocation and freeing. */ for (i = 0; i < old_len && i < new_len; i++) if (ml_replace((linenr_T)(lo+i), (char_u *)array[i], TRUE) == FAIL) { curbuf = savebuf; free_array(array); raise_vim_exn(_("cannot replace line")); } /* * Now we may need to insert the remaining new_len. We don't need to * free the string passed back because MzScheme has control of that * memory. */ while (i < new_len) { if (ml_append((linenr_T)(lo + i - 1), (char_u *)array[i], 0, FALSE) == FAIL) { curbuf = savebuf; free_array(array); raise_vim_exn(_("cannot insert line")); } ++i; ++extra; } MZ_GC_UNREG(); free_array(array); } /* * Adjust marks. Invalidate any which lie in the * changed range, and move any in the remainder of the buffer. */ mark_adjust((linenr_T)lo, (linenr_T)(hi - 1), (long)MAXLNUM, (long)extra); changed_lines((linenr_T)lo, 0, (linenr_T)hi, (long)extra); if (buf->buf == curwin->w_buffer) mz_fix_cursor(lo, hi, extra); curbuf = savebuf; MZ_GC_UNREG(); raise_if_error(); return scheme_void; } } /* * (insert-buff-line-list {linenr} {string/string-list} [buffer]) * * Insert a number of lines into the specified buffer after the specified line. * The line number is in Vim format (1-based). The lines to be inserted are * given as an MzScheme list of string objects or as a single string. The lines * to be added are checked for validity and correct format. Errors are * returned as a value of FAIL. The return value is OK on success. * If OK is returned and len_change is not NULL, *len_change * is set to the change in the buffer length. */ static Scheme_Object * insert_buffer_line_list(void *data, int argc, Scheme_Object **argv) { Vim_Prim *prim = (Vim_Prim *)data; vim_mz_buffer *buf = NULL; Scheme_Object *list = NULL; char *str = NULL; int i, n, size; MZ_GC_DECL_REG(1); MZ_GC_VAR_IN_REG(0, list); MZ_GC_REG(); #ifdef HAVE_SANDBOX sandbox_check(); #endif /* * First of all, we check the type of the supplied MzScheme object. * It must be a string or a list, or the call is in error. */ n = SCHEME_INT_VAL(GUARANTEE_INTEGER(prim->name, 0)); list = argv[1]; if (!SCHEME_STRINGP(list) && !SCHEME_PAIRP(list)) scheme_wrong_type(prim->name, "string or list", 1, argc, argv); buf = get_buffer_arg(prim->name, 2, argc, argv); if (n != 0) // 0 can be used in insert check_line_range(n, buf->buf); if (SCHEME_STRINGP(list)) { buf_T *savebuf = curbuf; str = string_to_line(list); curbuf = buf->buf; if (u_save((linenr_T)n, (linenr_T)(n+1)) == FAIL) { curbuf = savebuf; vim_free(str); raise_vim_exn(_("cannot save undo information")); } else if (ml_append((linenr_T)n, (char_u *)str, 0, FALSE) == FAIL) { curbuf = savebuf; vim_free(str); raise_vim_exn(_("cannot insert line")); } else { vim_free(str); appended_lines_mark((linenr_T)n, 1L); } curbuf = savebuf; update_screen(UPD_VALID); MZ_GC_UNREG(); raise_if_error(); return scheme_void; } // List size = scheme_proper_list_length(list); MZ_GC_CHECK(); if (size < 0) // improper or cyclic list scheme_wrong_type(prim->name, "proper list", 2, argc, argv); else { Scheme_Object *line = NULL; Scheme_Object *rest = NULL; char **array; buf_T *savebuf = curbuf; MZ_GC_DECL_REG(2); MZ_GC_VAR_IN_REG(0, line); MZ_GC_VAR_IN_REG(1, rest); MZ_GC_REG(); array = ALLOC_CLEAR_MULT(char *, size + 1); rest = list; for (i = 0; i < size; ++i) { line = SCHEME_CAR(rest); rest = SCHEME_CDR(rest); array[i] = string_to_line(line); } curbuf = buf->buf; if (u_save((linenr_T)n, (linenr_T)(n + 1)) == FAIL) { curbuf = savebuf; free_array(array); raise_vim_exn(_("cannot save undo information")); } else { for (i = 0; i < size; ++i) if (ml_append((linenr_T)(n + i), (char_u *)array[i], 0, FALSE) == FAIL) { curbuf = savebuf; free_array(array); raise_vim_exn(_("cannot insert line")); } if (i > 0) appended_lines_mark((linenr_T)n, (long)i); } free_array(array); MZ_GC_UNREG(); curbuf = savebuf; update_screen(UPD_VALID); } MZ_GC_UNREG(); raise_if_error(); return scheme_void; } /* * Predicates */ /* * (buff? obj) */ static Scheme_Object * vim_bufferp(void *data UNUSED, int argc UNUSED, Scheme_Object **argv) { if (SCHEME_VIMBUFFERP(argv[0])) return scheme_true; else return scheme_false; } /* * (win? obj) */ static Scheme_Object * vim_windowp(void *data UNUSED, int argc UNUSED, Scheme_Object **argv) { if (SCHEME_VIMWINDOWP(argv[0])) return scheme_true; else return scheme_false; } /* * (buff-valid? obj) */ static Scheme_Object * vim_buffer_validp(void *data UNUSED, int argc UNUSED, Scheme_Object **argv) { if (SCHEME_VIMBUFFERP(argv[0]) && ((vim_mz_buffer *)argv[0])->buf != INVALID_BUFFER_VALUE) return scheme_true; else return scheme_false; } /* * (win-valid? obj) */ static Scheme_Object * vim_window_validp(void *data UNUSED, int argc UNUSED, Scheme_Object **argv) { if (SCHEME_VIMWINDOWP(argv[0]) && ((vim_mz_window *)argv[0])->win != INVALID_WINDOW_VALUE) return scheme_true; else return scheme_false; } /* *=========================================================================== * Utilities *=========================================================================== */ /* * Convert an MzScheme string into a Vim line. * * All internal nulls are replaced by newline characters. * It is an error for the string to contain newline characters. * * Returns pointer to Vim allocated memory */ static char * string_to_line(Scheme_Object *obj) { char *scheme_str = NULL; char *vim_str = NULL; OUTPUT_LEN_TYPE len; int i; scheme_str = scheme_display_to_string(obj, &len); // Error checking: String must not contain newlines, as we // are replacing a single line, and we must replace it with // a single line. if (memchr(scheme_str, '\n', len)) scheme_signal_error(_("string cannot contain newlines")); vim_str = alloc(len + 1); // Create a copy of the string, with internal nulls replaced by // newline characters, as is the vim convention. for (i = 0; i < len; ++i) { if (scheme_str[i] == '\0') vim_str[i] = '\n'; else vim_str[i] = scheme_str[i]; } vim_str[i] = '\0'; MZ_GC_CHECK(); return vim_str; } #ifdef FEAT_EVAL /* * Convert Vim value into MzScheme, adopted from if_python.c */ static Scheme_Object * vim_to_mzscheme(typval_T *vim_value) { Scheme_Object *result = NULL; // hash table to store visited values to avoid infinite loops Scheme_Hash_Table *visited = NULL; MZ_GC_DECL_REG(2); MZ_GC_VAR_IN_REG(0, result); MZ_GC_VAR_IN_REG(1, visited); MZ_GC_REG(); visited = scheme_make_hash_table(SCHEME_hash_ptr); MZ_GC_CHECK(); result = vim_to_mzscheme_impl(vim_value, 1, visited); MZ_GC_UNREG(); return result; } static Scheme_Object * vim_to_mzscheme_impl(typval_T *vim_value, int depth, Scheme_Hash_Table *visited) { Scheme_Object *result = NULL; int new_value = TRUE; MZ_GC_DECL_REG(2); MZ_GC_VAR_IN_REG(0, result); MZ_GC_VAR_IN_REG(1, visited); MZ_GC_REG(); // Avoid infinite recursion if (depth > 100) { MZ_GC_UNREG(); return scheme_void; } // Check if we run into a recursive loop. The item must be in visited // then and we can use it again. result = scheme_hash_get(visited, (Scheme_Object *)vim_value); MZ_GC_CHECK(); if (result != NULL) // found, do nothing new_value = FALSE; else if (vim_value->v_type == VAR_STRING) { result = scheme_make_byte_string((char *)vim_value->vval.v_string); MZ_GC_CHECK(); } else if (vim_value->v_type == VAR_NUMBER) { result = scheme_make_integer((long)vim_value->vval.v_number); MZ_GC_CHECK(); } else if (vim_value->v_type == VAR_FLOAT) { result = scheme_make_double((double)vim_value->vval.v_float); MZ_GC_CHECK(); } else if (vim_value->v_type == VAR_LIST) { list_T *list = vim_value->vval.v_list; listitem_T *curr; if (list == NULL || list->lv_first == NULL) result = scheme_null; else { Scheme_Object *obj = NULL; MZ_GC_DECL_REG(1); MZ_GC_VAR_IN_REG(0, obj); MZ_GC_REG(); curr = list->lv_u.mat.lv_last; obj = vim_to_mzscheme_impl(&curr->li_tv, depth + 1, visited); result = scheme_make_pair(obj, scheme_null); MZ_GC_CHECK(); while (curr != list->lv_first) { curr = curr->li_prev; obj = vim_to_mzscheme_impl(&curr->li_tv, depth + 1, visited); result = scheme_make_pair(obj, result); MZ_GC_CHECK(); } } MZ_GC_UNREG(); } else if (vim_value->v_type == VAR_DICT) { Scheme_Object *key = NULL; Scheme_Object *obj = NULL; MZ_GC_DECL_REG(2); MZ_GC_VAR_IN_REG(0, key); MZ_GC_VAR_IN_REG(1, obj); MZ_GC_REG(); result = (Scheme_Object *)scheme_make_hash_table(SCHEME_hash_ptr); MZ_GC_CHECK(); if (vim_value->vval.v_dict != NULL) { hashtab_T *ht = &vim_value->vval.v_dict->dv_hashtab; long_u todo = ht->ht_used; hashitem_T *hi; dictitem_T *di; for (hi = ht->ht_array; todo > 0; ++hi) { if (!HASHITEM_EMPTY(hi)) { --todo; di = dict_lookup(hi); obj = vim_to_mzscheme_impl(&di->di_tv, depth + 1, visited); key = scheme_make_byte_string((char *)hi->hi_key); MZ_GC_CHECK(); scheme_hash_set((Scheme_Hash_Table *)result, key, obj); MZ_GC_CHECK(); } } } MZ_GC_UNREG(); } else if (vim_value->v_type == VAR_FUNC) { Scheme_Object *funcname = NULL; MZ_GC_DECL_REG(1); MZ_GC_VAR_IN_REG(0, funcname); MZ_GC_REG(); // FIXME: func_ref() and func_unref() are needed. funcname = scheme_make_byte_string((char *)vim_value->vval.v_string); MZ_GC_CHECK(); result = scheme_make_closed_prim_w_arity(vim_funcref, funcname, (const char *)BYTE_STRING_VALUE(funcname), 0, -1); MZ_GC_CHECK(); MZ_GC_UNREG(); } else if (vim_value->v_type == VAR_PARTIAL) { if (vim_value->vval.v_partial == NULL) result = scheme_null; else { Scheme_Object *funcname = NULL; MZ_GC_DECL_REG(1); MZ_GC_VAR_IN_REG(0, funcname); MZ_GC_REG(); // FIXME: func_ref() and func_unref() are needed. // TODO: Support pt_dict and pt_argv. funcname = scheme_make_byte_string( (char *)partial_name(vim_value->vval.v_partial)); MZ_GC_CHECK(); result = scheme_make_closed_prim_w_arity(vim_funcref, funcname, (const char *)BYTE_STRING_VALUE(funcname), 0, -1); MZ_GC_CHECK(); MZ_GC_UNREG(); } } else if (vim_value->v_type == VAR_BOOL || vim_value->v_type == VAR_SPECIAL) { if (vim_value->vval.v_number <= VVAL_TRUE) result = scheme_make_integer((long)vim_value->vval.v_number); else result = scheme_null; MZ_GC_CHECK(); } else { result = scheme_void; new_value = FALSE; } if (new_value) { scheme_hash_set(visited, (Scheme_Object *)vim_value, result); MZ_GC_CHECK(); } MZ_GC_UNREG(); return result; } static int mzscheme_to_vim(Scheme_Object *obj, typval_T *tv) { int i, status; Scheme_Hash_Table *visited = NULL; MZ_GC_DECL_REG(2); MZ_GC_VAR_IN_REG(0, obj); MZ_GC_VAR_IN_REG(1, visited); MZ_GC_REG(); visited = scheme_make_hash_table(SCHEME_hash_ptr); MZ_GC_CHECK(); status = mzscheme_to_vim_impl(obj, tv, 1, visited); for (i = 0; i < visited->size; ++i) { // free up remembered objects if (visited->vals[i] != NULL) free_tv((typval_T *)visited->vals[i]); } MZ_GC_UNREG(); return status; } static int mzscheme_to_vim_impl(Scheme_Object *obj, typval_T *tv, int depth, Scheme_Hash_Table *visited) { int status = OK; typval_T *found; MZ_GC_DECL_REG(2); MZ_GC_VAR_IN_REG(0, obj); MZ_GC_VAR_IN_REG(1, visited); MZ_GC_REG(); MZ_GC_CHECK(); if (depth > 100) // limit the deepest recursion level { tv->v_type = VAR_NUMBER; tv->vval.v_number = 0; return FAIL; } found = (typval_T *)scheme_hash_get(visited, obj); if (found != NULL) copy_tv(found, tv); else if (SCHEME_VOIDP(obj)) { tv->v_type = VAR_SPECIAL; tv->vval.v_number = VVAL_NULL; } else if (SCHEME_INTP(obj)) { tv->v_type = VAR_NUMBER; tv->vval.v_number = SCHEME_INT_VAL(obj); } else if (SCHEME_BOOLP(obj)) { tv->v_type = VAR_BOOL; tv->vval.v_number = SCHEME_TRUEP(obj); } else if (SCHEME_DBLP(obj)) { tv->v_type = VAR_FLOAT; tv->vval.v_float = SCHEME_DBL_VAL(obj); } else if (SCHEME_BYTE_STRINGP(obj)) { tv->v_type = VAR_STRING; tv->vval.v_string = vim_strsave(BYTE_STRING_VALUE(obj)); } # if MZSCHEME_VERSION_MAJOR >= 299 else if (SCHEME_CHAR_STRINGP(obj)) { Scheme_Object *tmp = NULL; MZ_GC_DECL_REG(1); MZ_GC_VAR_IN_REG(0, tmp); MZ_GC_REG(); tmp = scheme_char_string_to_byte_string(obj); tv->v_type = VAR_STRING; tv->vval.v_string = vim_strsave(BYTE_STRING_VALUE(tmp)); MZ_GC_UNREG(); } #endif else if (SCHEME_VECTORP(obj) || SCHEME_NULLP(obj) || SCHEME_PAIRP(obj) || SCHEME_MUTABLE_PAIRP(obj)) { list_T *list = list_alloc(); if (list == NULL) status = FAIL; else { int i; Scheme_Object *curr = NULL; Scheme_Object *cval = NULL; // temporary var to hold current element of vectors and pairs typval_T *v; MZ_GC_DECL_REG(2); MZ_GC_VAR_IN_REG(0, curr); MZ_GC_VAR_IN_REG(1, cval); MZ_GC_REG(); tv->v_type = VAR_LIST; tv->vval.v_list = list; ++list->lv_refcount; v = ALLOC_ONE(typval_T); if (v == NULL) status = FAIL; else { // add the value in advance to allow handling of self-referential // data structures typval_T *visited_tv = ALLOC_ONE(typval_T); copy_tv(tv, visited_tv); scheme_hash_set(visited, obj, (Scheme_Object *)visited_tv); if (SCHEME_VECTORP(obj)) { for (i = 0; i < SCHEME_VEC_SIZE(obj); ++i) { cval = SCHEME_VEC_ELS(obj)[i]; status = mzscheme_to_vim_impl(cval, v, depth + 1, visited); if (status == FAIL) break; status = list_append_tv(list, v); clear_tv(v); if (status == FAIL) break; } } else if (SCHEME_PAIRP(obj) || SCHEME_MUTABLE_PAIRP(obj)) { for (curr = obj; SCHEME_PAIRP(curr) || SCHEME_MUTABLE_PAIRP(curr); curr = SCHEME_CDR(curr)) { cval = SCHEME_CAR(curr); status = mzscheme_to_vim_impl(cval, v, depth + 1, visited); if (status == FAIL) break; status = list_append_tv(list, v); clear_tv(v); if (status == FAIL) break; } // improper list not terminated with null // need to handle the last element if (status == OK && !SCHEME_NULLP(curr)) { status = mzscheme_to_vim_impl(cval, v, depth + 1, visited); if (status == OK) { status = list_append_tv(list, v); clear_tv(v); } } } // nothing to do for scheme_null vim_free(v); } MZ_GC_UNREG(); } } else if (SCHEME_HASHTP(obj)) { int i; dict_T *dict; Scheme_Object *key = NULL; Scheme_Object *val = NULL; MZ_GC_DECL_REG(2); MZ_GC_VAR_IN_REG(0, key); MZ_GC_VAR_IN_REG(1, val); MZ_GC_REG(); dict = dict_alloc(); if (dict == NULL) status = FAIL; else { typval_T *visited_tv = ALLOC_ONE(typval_T); tv->v_type = VAR_DICT; tv->vval.v_dict = dict; ++dict->dv_refcount; copy_tv(tv, visited_tv); scheme_hash_set(visited, obj, (Scheme_Object *)visited_tv); for (i = 0; i < ((Scheme_Hash_Table *)obj)->size; ++i) { if (((Scheme_Hash_Table *) obj)->vals[i] != NULL) { // generate item for `display'ed Scheme key dictitem_T *item = dictitem_alloc((char_u *)string_to_line( ((Scheme_Hash_Table *) obj)->keys[i])); // convert Scheme val to Vim and add it to the dict if (mzscheme_to_vim_impl(((Scheme_Hash_Table *) obj)->vals[i], &item->di_tv, depth + 1, visited) == FAIL || dict_add(dict, item) == FAIL) { dictitem_free(item); status = FAIL; break; } } } } MZ_GC_UNREG(); } else { // `display' any other value to string tv->v_type = VAR_STRING; tv->vval.v_string = (char_u *)string_to_line(obj); } MZ_GC_UNREG(); return status; } /* * Scheme prim procedure wrapping Vim funcref */ static Scheme_Object * vim_funcref(void *name, int argc, Scheme_Object **argv) { int i; typval_T args; int status = OK; Scheme_Object *result = NULL; list_T *list = list_alloc(); MZ_GC_DECL_REG(1); MZ_GC_VAR_IN_REG(0, result); MZ_GC_REG(); result = scheme_void; if (list == NULL) status = FAIL; else { args.v_type = VAR_LIST; args.vval.v_list = list; ++list->lv_refcount; for (i = 0; status == OK && i < argc; ++i) { typval_T *v = ALLOC_ONE(typval_T); if (v == NULL) status = FAIL; else { status = mzscheme_to_vim(argv[i], v); if (status == OK) { status = list_append_tv(list, v); clear_tv(v); } vim_free(v); } } if (status == OK) { typval_T ret; ret.v_type = VAR_UNKNOWN; mzscheme_call_vim(BYTE_STRING_VALUE((Scheme_Object *)name), &args, &ret); MZ_GC_CHECK(); result = vim_to_mzscheme(&ret); clear_tv(&ret); MZ_GC_CHECK(); } } clear_tv(&args); MZ_GC_UNREG(); if (status != OK) raise_vim_exn(_("error converting Scheme values to Vim")); else raise_if_error(); return result; } void do_mzeval(char_u *str, typval_T *rettv) { Scheme_Object *ret = NULL; MZ_GC_DECL_REG(1); MZ_GC_VAR_IN_REG(0, ret); MZ_GC_REG(); if (mzscheme_init()) { MZ_GC_UNREG(); return; } MZ_GC_CHECK(); if (eval_with_exn_handling(str, do_eval, &ret) == OK) mzscheme_to_vim(ret, rettv); MZ_GC_UNREG(); } #endif /* * Check to see whether a Vim error has been reported, or a keyboard * interrupt (from vim --> got_int) has been detected. */ static int vim_error_check(void) { return (got_int || did_emsg); } /* * register Scheme exn:vim */ static void register_vim_exn(void) { int nc = 0; int i; Scheme_Object *struct_exn = NULL; Scheme_Object *exn_name = NULL; MZ_GC_DECL_REG(2); MZ_GC_VAR_IN_REG(0, struct_exn); MZ_GC_VAR_IN_REG(1, exn_name); MZ_GC_REG(); exn_name = scheme_intern_symbol("exn:vim"); MZ_GC_CHECK(); struct_exn = scheme_builtin_value("struct:exn"); MZ_GC_CHECK(); if (vim_exn == NULL) vim_exn = scheme_make_struct_type(exn_name, struct_exn, NULL, 0, 0, NULL, NULL #if MZSCHEME_VERSION_MAJOR >= 299 , NULL #endif ); { Scheme_Object **tmp = NULL; Scheme_Object *exn_names[5] = {NULL, NULL, NULL, NULL, NULL}; Scheme_Object *exn_values[5] = {NULL, NULL, NULL, NULL, NULL}; MZ_GC_DECL_REG(6); MZ_GC_ARRAY_VAR_IN_REG(0, exn_names, 5); MZ_GC_ARRAY_VAR_IN_REG(3, exn_values, 5); MZ_GC_REG(); tmp = scheme_make_struct_names(exn_name, scheme_null, 0, &nc); mch_memmove(exn_names, tmp, nc * sizeof(Scheme_Object *)); MZ_GC_CHECK(); tmp = scheme_make_struct_values(vim_exn, exn_names, nc, 0); mch_memmove(exn_values, tmp, nc * sizeof(Scheme_Object *)); MZ_GC_CHECK(); for (i = 0; i < nc; i++) { scheme_add_global_symbol(exn_names[i], exn_values[i], environment); MZ_GC_CHECK(); } MZ_GC_UNREG(); } MZ_GC_UNREG(); } /* * raise exn:vim, may be with additional info string */ void raise_vim_exn(const char *add_info) { char *fmt = _("Vim error: ~a"); Scheme_Object *argv[2] = {NULL, NULL}; Scheme_Object *exn = NULL; Scheme_Object *byte_string = NULL; MZ_GC_DECL_REG(5); MZ_GC_ARRAY_VAR_IN_REG(0, argv, 2); MZ_GC_VAR_IN_REG(3, exn); MZ_GC_VAR_IN_REG(4, byte_string); MZ_GC_REG(); if (add_info != NULL) { char *c_string = NULL; Scheme_Object *info = NULL; MZ_GC_DECL_REG(3); MZ_GC_VAR_IN_REG(0, c_string); MZ_GC_VAR_IN_REG(2, info); MZ_GC_REG(); info = scheme_make_byte_string(add_info); MZ_GC_CHECK(); c_string = scheme_format_utf8(fmt, (int)STRLEN(fmt), 1, &info, NULL); MZ_GC_CHECK(); byte_string = scheme_make_byte_string(c_string); MZ_GC_CHECK(); argv[0] = scheme_byte_string_to_char_string(byte_string); SCHEME_SET_IMMUTABLE(argv[0]); MZ_GC_UNREG(); } else { byte_string = scheme_make_byte_string(_("Vim error")); MZ_GC_CHECK(); argv[0] = scheme_byte_string_to_char_string(byte_string); MZ_GC_CHECK(); } MZ_GC_CHECK(); #if MZSCHEME_VERSION_MAJOR < 360 argv[1] = scheme_current_continuation_marks(); MZ_GC_CHECK(); #else argv[1] = scheme_current_continuation_marks(NULL); MZ_GC_CHECK(); #endif exn = scheme_make_struct_instance(vim_exn, 2, argv); MZ_GC_CHECK(); scheme_raise(exn); MZ_GC_UNREG(); } void raise_if_error(void) { if (vim_error_check()) raise_vim_exn(NULL); } /* * get buffer: * either current * or passed as argv[argnum] with checks */ static vim_mz_buffer * get_buffer_arg(const char *fname, int argnum, int argc, Scheme_Object **argv) { vim_mz_buffer *b; if (argc < argnum + 1) return get_vim_curr_buffer(); if (!SCHEME_VIMBUFFERP(argv[argnum])) scheme_wrong_type(fname, "vim-buffer", argnum, argc, argv); b = (vim_mz_buffer *)argv[argnum]; (void)get_valid_buffer(argv[argnum]); return b; } /* * get window: * either current * or passed as argv[argnum] with checks */ static vim_mz_window * get_window_arg(const char *fname, int argnum, int argc, Scheme_Object **argv) { vim_mz_window *w; if (argc < argnum + 1) return get_vim_curr_window(); w = (vim_mz_window *)argv[argnum]; if (!SCHEME_VIMWINDOWP(argv[argnum])) scheme_wrong_type(fname, "vim-window", argnum, argc, argv); (void)get_valid_window(argv[argnum]); return w; } /* * get valid Vim buffer from Scheme_Object* */ buf_T *get_valid_buffer(void *obj) { buf_T *buf = ((vim_mz_buffer *)obj)->buf; if (buf == INVALID_BUFFER_VALUE) scheme_signal_error(_("buffer is invalid")); return buf; } /* * get valid Vim window from Scheme_Object* */ win_T *get_valid_window(void *obj) { win_T *win = ((vim_mz_window *)obj)->win; if (win == INVALID_WINDOW_VALUE) scheme_signal_error(_("window is invalid")); return win; } int mzthreads_allowed(void) { return mz_threads_allow; } static int line_in_range(linenr_T lnum, buf_T *buf) { return (lnum > 0 && lnum <= buf->b_ml.ml_line_count); } static void check_line_range(linenr_T lnum, buf_T *buf) { if (!line_in_range(lnum, buf)) scheme_signal_error(_("linenr out of range")); } /* * Check if deleting lines made the cursor position invalid * (or you'll get msg from Vim about invalid linenr). * Changed the lines from "lo" to "hi" and added "extra" lines (negative if * deleted). Got from if_python.c */ static void mz_fix_cursor(int lo, int hi, int extra) { if (curwin->w_cursor.lnum >= lo) { // Adjust the cursor position if it's in/after the changed // lines. if (curwin->w_cursor.lnum >= hi) { curwin->w_cursor.lnum += extra; check_cursor_col(); } else if (extra < 0) { curwin->w_cursor.lnum = lo; check_cursor(); } else check_cursor_col(); changed_cline_bef_curs(); } invalidate_botline(); } static Vim_Prim prims[]= { /* * Buffer-related commands */ {get_buffer_line, "get-buff-line", 1, 2}, {set_buffer_line, "set-buff-line", 2, 3}, {get_buffer_line_list, "get-buff-line-list", 2, 3}, {get_buffer_name, "get-buff-name", 0, 1}, {get_buffer_num, "get-buff-num", 0, 1}, {get_buffer_size, "get-buff-size", 0, 1}, {set_buffer_line_list, "set-buff-line-list", 3, 4}, {insert_buffer_line_list, "insert-buff-line-list", 2, 3}, {get_curr_buffer, "curr-buff", 0, 0}, {get_buffer_count, "buff-count", 0, 0}, {get_next_buffer, "get-next-buff", 0, 1}, {get_prev_buffer, "get-prev-buff", 0, 1}, {mzscheme_open_buffer, "open-buff", 1, 1}, {get_buffer_by_name, "get-buff-by-name", 1, 1}, {get_buffer_by_num, "get-buff-by-num", 1, 1}, /* * Window-related commands */ {get_curr_win, "curr-win", 0, 0}, {get_window_count, "win-count", 0, 0}, {get_window_by_num, "get-win-by-num", 1, 1}, {get_window_num, "get-win-num", 0, 1}, {get_window_buffer, "get-win-buffer", 0, 1}, {get_window_height, "get-win-height", 0, 1}, {set_window_height, "set-win-height", 1, 2}, {get_window_width, "get-win-width", 0, 1}, {set_window_width, "set-win-width", 1, 2}, {get_cursor, "get-cursor", 0, 1}, {set_cursor, "set-cursor", 1, 2}, {get_window_list, "get-win-list", 0, 1}, /* * Vim-related commands */ {vim_command, "command", 1, 1}, {vim_eval, "eval", 1, 1}, {get_range_start, "range-start", 0, 0}, {get_range_end, "range-end", 0, 0}, {mzscheme_beep, "beep", 0, 0}, {get_option, "get-option", 1, 2}, {set_option, "set-option", 1, 2}, /* * small utilities */ {vim_bufferp, "buff?", 1, 1}, {vim_windowp, "win?", 1, 1}, {vim_buffer_validp, "buff-valid?", 1, 1}, {vim_window_validp, "win-valid?", 1, 1} }; /* * return MzScheme wrapper for curbuf */ static vim_mz_buffer * get_vim_curr_buffer(void) { if (curbuf->b_mzscheme_ref == NULL) return (vim_mz_buffer *)buffer_new(curbuf); else return BUFFER_REF(curbuf); } /* * return MzScheme wrapper for curwin */ static vim_mz_window * get_vim_curr_window(void) { if (curwin->w_mzscheme_ref == NULL) return (vim_mz_window *)window_new(curwin); else return WINDOW_REF(curwin); } static void make_modules(void) { int i; Scheme_Env *mod = NULL; Scheme_Object *vimext_symbol = NULL; Scheme_Object *closed_prim = NULL; MZ_GC_DECL_REG(3); MZ_GC_VAR_IN_REG(0, mod); MZ_GC_VAR_IN_REG(1, vimext_symbol); MZ_GC_VAR_IN_REG(2, closed_prim); MZ_GC_REG(); vimext_symbol = scheme_intern_symbol("vimext"); MZ_GC_CHECK(); mod = scheme_primitive_module(vimext_symbol, environment); MZ_GC_CHECK(); // all prims made closed so they can access their own names for (i = 0; i < (int)ARRAY_LENGTH(prims); i++) { Vim_Prim *prim = prims + i; closed_prim = scheme_make_closed_prim_w_arity(prim->prim, prim, prim->name, prim->mina, prim->maxa); scheme_add_global(prim->name, closed_prim, mod); MZ_GC_CHECK(); } scheme_finish_primitive_module(mod); MZ_GC_CHECK(); MZ_GC_UNREG(); } #ifdef HAVE_SANDBOX static Scheme_Object *M_write = NULL; static Scheme_Object *M_read = NULL; static Scheme_Object *M_execute = NULL; static Scheme_Object *M_delete = NULL; static void sandbox_check(void) { if (sandbox) raise_vim_exn(_("not allowed in the Vim sandbox")); } /* * security guards to force Vim's sandbox restrictions on MzScheme level */ static Scheme_Object * sandbox_file_guard(int argc UNUSED, Scheme_Object **argv) { if (!sandbox) return scheme_void; Scheme_Object *requested_access = argv[2]; if (M_write == NULL) { MZ_REGISTER_STATIC(M_write); M_write = scheme_intern_symbol("write"); MZ_GC_CHECK(); } if (M_read == NULL) { MZ_REGISTER_STATIC(M_read); M_read = scheme_intern_symbol("read"); MZ_GC_CHECK(); } if (M_execute == NULL) { MZ_REGISTER_STATIC(M_execute); M_execute = scheme_intern_symbol("execute"); MZ_GC_CHECK(); } if (M_delete == NULL) { MZ_REGISTER_STATIC(M_delete); M_delete = scheme_intern_symbol("delete"); MZ_GC_CHECK(); } while (!SCHEME_NULLP(requested_access)) { Scheme_Object *item = SCHEME_CAR(requested_access); if (scheme_eq(item, M_write) || scheme_eq(item, M_read) || scheme_eq(item, M_execute) || scheme_eq(item, M_delete)) raise_vim_exn(_("not allowed in the Vim sandbox")); requested_access = SCHEME_CDR(requested_access); } return scheme_void; } static Scheme_Object * sandbox_network_guard(int argc UNUSED, Scheme_Object **argv UNUSED) { return scheme_void; } #endif #endif