#include #ifdef _WIN32 #include #endif #if defined DOSISH #define isdirsep(x) ((x) == '/' || (x) == '\\') #else #define isdirsep(x) ((x) == '/') #endif static VALUE cBreakpoint; static int breakpoint_max; static ID idEval; static VALUE eval_expression(VALUE args) { return rb_funcall2(rb_mKernel, idEval, 2, RARRAY_PTR(args)); } /* * call-seq: * breakpoint.enabled? -> bool * * Returns +true+ if breakpoint is enabled, false otherwise. */ static VALUE brkpt_enabled(VALUE self) { breakpoint_t *breakpoint; Data_Get_Struct(self, breakpoint_t, breakpoint); return breakpoint->enabled; } /* * call-seq: * breakpoint.enabled = bool * * Enables or disables breakpoint. */ static VALUE brkpt_set_enabled(VALUE self, VALUE bool) { breakpoint_t *breakpoint; Data_Get_Struct(self, breakpoint_t, breakpoint); return breakpoint->enabled = bool; } /* * call-seq: * breakpoint.expr -> string * * Returns a conditional expression which indicates when this breakpoint should * be activated. */ static VALUE brkpt_expr(VALUE self) { breakpoint_t *breakpoint; Data_Get_Struct(self, breakpoint_t, breakpoint); return breakpoint->expr; } /* * call-seq: * breakpoint.expr = string | nil * * Sets or unsets the conditional expression which indicates when this * breakpoint should be activated. */ static VALUE brkpt_set_expr(VALUE self, VALUE expr) { breakpoint_t *breakpoint; Data_Get_Struct(self, breakpoint_t, breakpoint); breakpoint->expr = NIL_P(expr) ? expr : StringValue(expr); return expr; } /* * call-seq: * breakpoint.hit_condition -> symbol * * Returns the hit condition of the breakpoint: +nil+ if it is an * unconditional breakpoint, or :greater_or_equal, :equal or :modulo otherwise */ static VALUE brkpt_hit_condition(VALUE self) { breakpoint_t *breakpoint; Data_Get_Struct(self, breakpoint_t, breakpoint); switch (breakpoint->hit_condition) { case HIT_COND_GE: return ID2SYM(rb_intern("greater_or_equal")); case HIT_COND_EQ: return ID2SYM(rb_intern("equal")); case HIT_COND_MOD: return ID2SYM(rb_intern("modulo")); case HIT_COND_NONE: default: return Qnil; } } /* * call-seq: * breakpoint.hit_condition = symbol * * Sets the hit condition of the breakpoint which must be one of the following * values: * * +nil+ if it is an unconditional breakpoint, or * :greater_or_equal(:ge), :equal(:eq), :modulo(:mod) */ static VALUE brkpt_set_hit_condition(VALUE self, VALUE value) { breakpoint_t *breakpoint; ID id_value; Data_Get_Struct(self, breakpoint_t, breakpoint); id_value = rb_to_id(value); if (rb_intern("greater_or_equal") == id_value || rb_intern("ge") == id_value) breakpoint->hit_condition = HIT_COND_GE; else if (rb_intern("equal") == id_value || rb_intern("eq") == id_value) breakpoint->hit_condition = HIT_COND_EQ; else if (rb_intern("modulo") == id_value || rb_intern("mod") == id_value) breakpoint->hit_condition = HIT_COND_MOD; else rb_raise(rb_eArgError, "Invalid condition parameter"); return value; } /* * call-seq: * breakpoint.hit_count -> int * * Returns the number of times this breakpoint has been hit. */ static VALUE brkpt_hit_count(VALUE self) { breakpoint_t *breakpoint; Data_Get_Struct(self, breakpoint_t, breakpoint); return INT2FIX(breakpoint->hit_count); } /* * call-seq: * breakpoint.hit_value -> int * * Returns the hit value of the breakpoint, namely, a value to build a * condition on the number of hits of the breakpoint. */ static VALUE brkpt_hit_value(VALUE self) { breakpoint_t *breakpoint; Data_Get_Struct(self, breakpoint_t, breakpoint); return INT2FIX(breakpoint->hit_value); } /* * call-seq: * breakpoint.hit_value = int * * Sets the hit value of the breakpoint. This allows the user to set conditions * on the number of hits to enable/disable the breakpoint. */ static VALUE brkpt_set_hit_value(VALUE self, VALUE value) { breakpoint_t *breakpoint; Data_Get_Struct(self, breakpoint_t, breakpoint); breakpoint->hit_value = FIX2INT(value); return value; } /* * call-seq: * breakpoint.id -> int * * Returns the id of the breakpoint. */ static VALUE brkpt_id(VALUE self) { breakpoint_t *breakpoint; Data_Get_Struct(self, breakpoint_t, breakpoint); return INT2FIX(breakpoint->id); } /* * call-seq: * breakpoint.pos -> string or int * * Returns the position of this breakpoint, either a method name or a line * number. */ static VALUE brkpt_pos(VALUE self) { breakpoint_t *breakpoint; Data_Get_Struct(self, breakpoint_t, breakpoint); if (breakpoint->type == BP_METHOD_TYPE) return rb_str_new2(rb_id2name(breakpoint->pos.mid)); else return INT2FIX(breakpoint->pos.line); } /* * call-seq: * breakpoint.source -> string * * Returns the source file of the breakpoint. */ static VALUE brkpt_source(VALUE self) { breakpoint_t *breakpoint; Data_Get_Struct(self, breakpoint_t, breakpoint); return breakpoint->source; } static void mark_breakpoint(breakpoint_t * breakpoint) { rb_gc_mark(breakpoint->source); rb_gc_mark(breakpoint->expr); } static VALUE brkpt_create(VALUE klass) { breakpoint_t *breakpoint = ALLOC(breakpoint_t); return Data_Wrap_Struct(klass, mark_breakpoint, xfree, breakpoint); } static VALUE brkpt_initialize(VALUE self, VALUE source, VALUE pos, VALUE expr) { breakpoint_t *breakpoint; Data_Get_Struct(self, breakpoint_t, breakpoint); breakpoint->type = FIXNUM_P(pos) ? BP_POS_TYPE : BP_METHOD_TYPE; if (breakpoint->type == BP_POS_TYPE) breakpoint->pos.line = FIX2INT(pos); else breakpoint->pos.mid = SYM2ID(pos); breakpoint->id = ++breakpoint_max; breakpoint->source = StringValue(source); breakpoint->enabled = Qtrue; breakpoint->expr = NIL_P(expr) ? expr : StringValue(expr); breakpoint->hit_count = 0; breakpoint->hit_value = 0; breakpoint->hit_condition = HIT_COND_NONE; return Qnil; } int filename_cmp_impl(VALUE source, char *file) { char *source_ptr, *file_ptr; long s_len, f_len, min_len; long s, f; int dirsep_flag = 0; s_len = RSTRING_LEN(source); f_len = strlen(file); min_len = s_len < f_len ? s_len : f_len; source_ptr = RSTRING_PTR(source); file_ptr = file; for (s = s_len - 1, f = f_len - 1; s >= s_len - min_len && f >= f_len - min_len; s--, f--) { if ((source_ptr[s] == '.' || file_ptr[f] == '.') && dirsep_flag) return 1; if (isdirsep(source_ptr[s]) && isdirsep(file_ptr[f])) dirsep_flag = 1; #ifdef DOSISH_DRIVE_LETTER else if (s == 0) return (toupper(source_ptr[s]) == toupper(file_ptr[f])); #endif else if (source_ptr[s] != file_ptr[f]) return 0; } return 1; } int filename_cmp(VALUE source, char *file) { #ifdef _WIN32 return filename_cmp_impl(source, file); #else #ifdef PATH_MAX char path[PATH_MAX + 1]; path[PATH_MAX] = 0; return filename_cmp_impl(source, realpath(file, path) != NULL ? path : file); #else char *path; int result; path = realpath(file, NULL); result = filename_cmp_impl(source, path == NULL ? file : path); free(path); return result; #endif #endif } int classname_cmp(VALUE name, VALUE klass) { VALUE mod_name; VALUE class_name = NIL_P(name) ? rb_str_new2("main") : name; if (NIL_P(klass)) return 0; mod_name = rb_mod_name(klass); return (mod_name != Qnil && rb_str_cmp(class_name, mod_name) == 0); } static int check_breakpoint_by_hit_condition(VALUE rb_breakpoint) { breakpoint_t *breakpoint; if (NIL_P(rb_breakpoint)) return 0; Data_Get_Struct(rb_breakpoint, breakpoint_t, breakpoint); breakpoint->hit_count++; if (Qtrue != breakpoint->enabled) return 0; switch (breakpoint->hit_condition) { case HIT_COND_NONE: return 1; case HIT_COND_GE: { if (breakpoint->hit_count >= breakpoint->hit_value) return 1; break; } case HIT_COND_EQ: { if (breakpoint->hit_count == breakpoint->hit_value) return 1; break; } case HIT_COND_MOD: { if (breakpoint->hit_count % breakpoint->hit_value == 0) return 1; break; } } return 0; } static int check_breakpoint_by_pos(VALUE rb_breakpoint, char *file, int line) { breakpoint_t *breakpoint; if (NIL_P(rb_breakpoint)) return 0; Data_Get_Struct(rb_breakpoint, breakpoint_t, breakpoint); if (Qfalse == breakpoint->enabled || breakpoint->type != BP_POS_TYPE || breakpoint->pos.line != line) return 0; return filename_cmp(breakpoint->source, file); } static int check_breakpoint_by_method(VALUE rb_breakpoint, VALUE klass, ID mid, VALUE self) { breakpoint_t *breakpoint; if (NIL_P(rb_breakpoint)) return 0; Data_Get_Struct(rb_breakpoint, breakpoint_t, breakpoint); if (Qfalse == breakpoint->enabled || breakpoint->type != BP_METHOD_TYPE || breakpoint->pos.mid != mid) return 0; if (classname_cmp(breakpoint->source, klass) || ((rb_type(self) == T_CLASS || rb_type(self) == T_MODULE) && classname_cmp(breakpoint->source, self))) return 1; return 0; } static int check_breakpoint_by_expr(VALUE rb_breakpoint, VALUE bind) { breakpoint_t *breakpoint; VALUE args, expr_result; if (NIL_P(rb_breakpoint)) return 0; Data_Get_Struct(rb_breakpoint, breakpoint_t, breakpoint); if (Qfalse == breakpoint->enabled) return 0; if (NIL_P(breakpoint->expr)) return 1; args = rb_ary_new3(2, breakpoint->expr, bind); expr_result = rb_protect(eval_expression, args, 0); return RTEST(expr_result); } extern VALUE find_breakpoint_by_pos(VALUE breakpoints, VALUE source, VALUE pos, VALUE bind) { VALUE breakpoint; char *file; int line; int i; file = RSTRING_PTR(source); line = FIX2INT(pos); for (i = 0; i < RARRAY_LENINT(breakpoints); i++) { breakpoint = rb_ary_entry(breakpoints, i); if (check_breakpoint_by_pos(breakpoint, file, line) && check_breakpoint_by_expr(breakpoint, bind) && check_breakpoint_by_hit_condition(breakpoint)) { return breakpoint; } } return Qnil; } extern VALUE find_breakpoint_by_method(VALUE breakpoints, VALUE klass, ID mid, VALUE bind, VALUE self) { VALUE breakpoint; int i; for (i = 0; i < RARRAY_LENINT(breakpoints); i++) { breakpoint = rb_ary_entry(breakpoints, i); if (check_breakpoint_by_method(breakpoint, klass, mid, self) && check_breakpoint_by_expr(breakpoint, bind) && check_breakpoint_by_hit_condition(breakpoint)) { return breakpoint; } } return Qnil; } void Init_breakpoint(VALUE mByebug) { breakpoint_max = 0; cBreakpoint = rb_define_class_under(mByebug, "Breakpoint", rb_cObject); rb_define_alloc_func(cBreakpoint, brkpt_create); rb_define_method(cBreakpoint, "initialize", brkpt_initialize, 3); rb_define_method(cBreakpoint, "enabled?", brkpt_enabled, 0); rb_define_method(cBreakpoint, "enabled=", brkpt_set_enabled, 1); rb_define_method(cBreakpoint, "expr", brkpt_expr, 0); rb_define_method(cBreakpoint, "expr=", brkpt_set_expr, 1); rb_define_method(cBreakpoint, "hit_count", brkpt_hit_count, 0); rb_define_method(cBreakpoint, "hit_condition", brkpt_hit_condition, 0); rb_define_method(cBreakpoint, "hit_condition=", brkpt_set_hit_condition, 1); rb_define_method(cBreakpoint, "hit_value", brkpt_hit_value, 0); rb_define_method(cBreakpoint, "hit_value=", brkpt_set_hit_value, 1); rb_define_method(cBreakpoint, "id", brkpt_id, 0); rb_define_method(cBreakpoint, "pos", brkpt_pos, 0); rb_define_method(cBreakpoint, "source", brkpt_source, 0); idEval = rb_intern("eval"); }