/* * $Id: mem.c,v 1.11 2006-10-23 14:49:16 bacon Exp $ */ #include sse_lsp_mem_t* sse_lsp_mem_new (sse_size_t ubound, sse_size_t ubound_inc) { sse_lsp_mem_t* mem; sse_size_t i; // allocate memory mem = (sse_lsp_mem_t*) sse_malloc (sse_sizeof(sse_lsp_mem_t)); if (mem == SSE_NULL) return SSE_NULL; // create a new root environment frame mem->frame = sse_lsp_frame_new (); if (mem->frame == SSE_NULL) { sse_free (mem); return SSE_NULL; } mem->root_frame = mem->frame; mem->brooding_frame = SSE_NULL; // create an array to hold temporary objects mem->temp_array = sse_lsp_array_new (512); if (mem->temp_array == SSE_NULL) { sse_lsp_frame_free (mem->frame); sse_free (mem); return SSE_NULL; } // initialize object allocation list mem->ubound = ubound; mem->ubound_inc = ubound_inc; mem->count = 0; for (i = 0; i < SSE_LSP_TYPE_COUNT; i++) { mem->used[i] = SSE_NULL; mem->free[i] = SSE_NULL; } mem->locked = SSE_NULL; // when "ubound" is too small, the garbage collection can // be performed while making the common objects. mem->nil = SSE_NULL; mem->t = SSE_NULL; mem->quote = SSE_NULL; mem->lambda = SSE_NULL; mem->macro = SSE_NULL; // initialize common object pointers mem->nil = sse_lsp_make_nil (mem); mem->t = sse_lsp_make_true (mem); mem->quote = sse_lsp_make_symbol (mem, SSE_T("quote")); mem->lambda = sse_lsp_make_symbol (mem, SSE_T("lambda")); mem->macro = sse_lsp_make_symbol (mem, SSE_T("macro")); if (mem->nil == SSE_NULL || mem->t == SSE_NULL || mem->quote == SSE_NULL || mem->lambda == SSE_NULL || mem->macro == SSE_NULL) { sse_lsp_dispose_all (mem); sse_lsp_array_free (mem->temp_array); sse_lsp_frame_free (mem->frame); sse_free (mem); return SSE_NULL; } return mem; } void sse_lsp_mem_free (sse_lsp_mem_t* mem) { sse_assert (mem != SSE_NULL); // dispose of the allocated objects sse_lsp_dispose_all (mem); // dispose of the temporary object arrays sse_lsp_array_free (mem->temp_array); // dispose of environment frames sse_lsp_frame_free (mem->frame); // free the memory sse_free (mem); } static int __add_prim (sse_lsp_mem_t* mem, const sse_char_t* name, sse_size_t len, sse_lsp_prim_t prim) { sse_lsp_obj_t* n, * p; n = sse_lsp_make_symbolx (mem, name, len); if (n == SSE_NULL) return -1; sse_lsp_lock (n); p = sse_lsp_make_prim (mem, prim); if (p == SSE_NULL) return -1; sse_lsp_unlock (n); if (sse_lsp_set_func(mem, n, p) == SSE_NULL) return -1; return 0; } int sse_lsp_add_builtin_prims (sse_lsp_mem_t* mem) { #define ADD_PRIM(mem,name,len,prim) \ if (__add_prim(mem,name,len,prim) == -1) return -1; ADD_PRIM (mem, SSE_T("abort"), 5, sse_lsp_prim_abort); ADD_PRIM (mem, SSE_T("eval"), 4, sse_lsp_prim_eval); ADD_PRIM (mem, SSE_T("prog1"), 5, sse_lsp_prim_prog1); ADD_PRIM (mem, SSE_T("progn"), 5, sse_lsp_prim_progn); ADD_PRIM (mem, SSE_T("gc"), 2, sse_lsp_prim_gc); ADD_PRIM (mem, SSE_T("cond"), 4, sse_lsp_prim_cond); ADD_PRIM (mem, SSE_T("if"), 2, sse_lsp_prim_if); ADD_PRIM (mem, SSE_T("while"), 5, sse_lsp_prim_while); ADD_PRIM (mem, SSE_T("car"), 3, sse_lsp_prim_car); ADD_PRIM (mem, SSE_T("cdr"), 3, sse_lsp_prim_cdr); ADD_PRIM (mem, SSE_T("cons"), 4, sse_lsp_prim_cons); ADD_PRIM (mem, SSE_T("set"), 3, sse_lsp_prim_set); ADD_PRIM (mem, SSE_T("setq"), 4, sse_lsp_prim_setq); ADD_PRIM (mem, SSE_T("quote"), 5, sse_lsp_prim_quote); ADD_PRIM (mem, SSE_T("defun"), 5, sse_lsp_prim_defun); ADD_PRIM (mem, SSE_T("demac"), 5, sse_lsp_prim_demac); ADD_PRIM (mem, SSE_T("let"), 3, sse_lsp_prim_let); ADD_PRIM (mem, SSE_T("let*"), 4, sse_lsp_prim_letx); ADD_PRIM (mem, SSE_T(">"), 1, sse_lsp_prim_gt); ADD_PRIM (mem, SSE_T("<"), 1, sse_lsp_prim_lt); ADD_PRIM (mem, SSE_T("+"), 1, sse_lsp_prim_plus); ADD_PRIM (mem, SSE_T("-"), 1, sse_lsp_prim_minus); return 0; } sse_lsp_obj_t* sse_lsp_alloc (sse_lsp_mem_t* mem, int type, sse_size_t size) { sse_lsp_obj_t* obj; if (mem->count >= mem->ubound) sse_lsp_garbage_collect (mem); if (mem->count >= mem->ubound) { mem->ubound += mem->ubound_inc; if (mem->count >= mem->ubound) return SSE_NULL; } obj = (sse_lsp_obj_t*) sse_malloc (size); if (obj == SSE_NULL) { sse_lsp_garbage_collect (mem); obj = (sse_lsp_obj_t*) sse_malloc (size); if (obj == SSE_NULL) return SSE_NULL; } SSE_LSP_TYPE(obj) = type; SSE_LSP_SIZE(obj) = size; SSE_LSP_MARK(obj) = 0; SSE_LSP_LOCK(obj) = 0; // insert the object at the head of the used list SSE_LSP_LINK(obj) = mem->used[type]; mem->used[type] = obj; mem->count++; #if 0 sse_dprint1 (SSE_T("mem->count: %u\n"), mem->count); #endif return obj; } void sse_lsp_dispose (sse_lsp_mem_t* mem, sse_lsp_obj_t* prev, sse_lsp_obj_t* obj) { sse_assert (mem != SSE_NULL); sse_assert (obj != SSE_NULL); sse_assert (mem->count > 0); // TODO: push the object to the free list for more // efficient memory management if (prev == SSE_NULL) mem->used[SSE_LSP_TYPE(obj)] = SSE_LSP_LINK(obj); else SSE_LSP_LINK(prev) = SSE_LSP_LINK(obj); mem->count--; #if 0 sse_dprint1 (SSE_T("mem->count: %u\n"), mem->count); #endif sse_free (obj); } void sse_lsp_dispose_all (sse_lsp_mem_t* mem) { sse_lsp_obj_t* obj, * next; sse_size_t i; for (i = 0; i < SSE_LSP_TYPE_COUNT; i++) { obj = mem->used[i]; while (obj != SSE_NULL) { next = SSE_LSP_LINK(obj); sse_lsp_dispose (mem, SSE_NULL, obj); obj = next; } } } static void sse_lsp_mark_obj (sse_lsp_obj_t* obj) { sse_assert (obj != SSE_NULL); // TODO:.... // can it be recursive? if (SSE_LSP_MARK(obj) != 0) return; SSE_LSP_MARK(obj) = 1; if (SSE_LSP_TYPE(obj) == SSE_LSP_OBJ_CONS) { sse_lsp_mark_obj (SSE_LSP_CAR(obj)); sse_lsp_mark_obj (SSE_LSP_CDR(obj)); } else if (SSE_LSP_TYPE(obj) == SSE_LSP_OBJ_FUNC) { sse_lsp_mark_obj (SSE_LSP_FFORMAL(obj)); sse_lsp_mark_obj (SSE_LSP_FBODY(obj)); } else if (SSE_LSP_TYPE(obj) == SSE_LSP_OBJ_MACRO) { sse_lsp_mark_obj (SSE_LSP_MFORMAL(obj)); sse_lsp_mark_obj (SSE_LSP_MBODY(obj)); } } /* * sse_lsp_lock and sse_lsp_unlock_all are just called by sse_lsp_read. */ void sse_lsp_lock (sse_lsp_obj_t* obj) { sse_assert (obj != SSE_NULL); SSE_LSP_LOCK(obj) = 1; //SSE_LSP_MARK(obj) = 1; } void sse_lsp_unlock (sse_lsp_obj_t* obj) { sse_assert (obj != SSE_NULL); SSE_LSP_LOCK(obj) = 0; } void sse_lsp_unlock_all (sse_lsp_obj_t* obj) { sse_assert (obj != SSE_NULL); SSE_LSP_LOCK(obj) = 0; if (SSE_LSP_TYPE(obj) == SSE_LSP_OBJ_CONS) { sse_lsp_unlock_all (SSE_LSP_CAR(obj)); sse_lsp_unlock_all (SSE_LSP_CDR(obj)); } else if (SSE_LSP_TYPE(obj) == SSE_LSP_OBJ_FUNC) { sse_lsp_unlock_all (SSE_LSP_FFORMAL(obj)); sse_lsp_unlock_all (SSE_LSP_FBODY(obj)); } else if (SSE_LSP_TYPE(obj) == SSE_LSP_OBJ_MACRO) { sse_lsp_unlock_all (SSE_LSP_MFORMAL(obj)); sse_lsp_unlock_all (SSE_LSP_MBODY(obj)); } } static void sse_lsp_mark (sse_lsp_mem_t* mem) { sse_lsp_frame_t* frame; sse_lsp_assoc_t* assoc; sse_lsp_array_t* array; sse_size_t i; #if 0 sse_dprint0 (SSE_T("marking environment frames\n")); #endif // mark objects in the environment frames frame = mem->frame; while (frame != SSE_NULL) { assoc = frame->assoc; while (assoc != SSE_NULL) { sse_lsp_mark_obj (assoc->name); if (assoc->value != SSE_NULL) sse_lsp_mark_obj (assoc->value); if (assoc->func != SSE_NULL) sse_lsp_mark_obj (assoc->func); assoc = assoc->link; } frame = frame->link; } #if 0 sse_dprint0 (SSE_T("marking interim frames\n")); #endif // mark objects in the interim frames frame = mem->brooding_frame; while (frame != SSE_NULL) { assoc = frame->assoc; while (assoc != SSE_NULL) { sse_lsp_mark_obj (assoc->name); if (assoc->value != SSE_NULL) sse_lsp_mark_obj (assoc->value); if (assoc->func != SSE_NULL) sse_lsp_mark_obj (assoc->func); assoc = assoc->link; } frame = frame->link; } /* sse_dprint0 (SSE_T("marking the locked object\n")); if (mem->locked != SSE_NULL) sse_lsp_mark_obj (mem->locked); */ #if 0 sse_dprint0 (SSE_T("marking termporary objects\n")); #endif array = mem->temp_array; for (i = 0; i < array->size; i++) { sse_lsp_mark_obj (array->buffer[i]); } #if 0 sse_dprint0 (SSE_T("marking builtin objects\n")); #endif // mark common objects if (mem->t != SSE_NULL) sse_lsp_mark_obj (mem->t); if (mem->nil != SSE_NULL) sse_lsp_mark_obj (mem->nil); if (mem->quote != SSE_NULL) sse_lsp_mark_obj (mem->quote); if (mem->lambda != SSE_NULL) sse_lsp_mark_obj (mem->lambda); if (mem->macro != SSE_NULL) sse_lsp_mark_obj (mem->macro); } static void sse_lsp_sweep (sse_lsp_mem_t* mem) { sse_lsp_obj_t* obj, * prev, * next; sse_size_t i; // scan all the allocated objects and get rid of unused objects for (i = 0; i < SSE_LSP_TYPE_COUNT; i++) { //for (i = SSE_LSP_TYPE_COUNT; i > 0; /*i--*/) { prev = SSE_NULL; obj = mem->used[i]; //obj = mem->used[--i]; #if 0 sse_dprint1 (SSE_T("sweeping objects of type: %u\n"), i); #endif while (obj != SSE_NULL) { next = SSE_LSP_LINK(obj); if (SSE_LSP_LOCK(obj) == 0 && SSE_LSP_MARK(obj) == 0) { // dispose of unused objects sse_lsp_dispose (mem, prev, obj); } else { // unmark the object in use SSE_LSP_MARK(obj) = 0; prev = obj; } obj = next; } } } void sse_lsp_garbage_collect (sse_lsp_mem_t* mem) { sse_lsp_mark (mem); sse_lsp_sweep (mem); } sse_lsp_obj_t* sse_lsp_make_nil (sse_lsp_mem_t* mem) { if (mem->nil != SSE_NULL) return mem->nil; mem->nil = sse_lsp_alloc (mem, SSE_LSP_OBJ_NIL, sse_sizeof(sse_lsp_obj_nil_t)); return mem->nil; } sse_lsp_obj_t* sse_lsp_make_true (sse_lsp_mem_t* mem) { if (mem->t != SSE_NULL) return mem->t; mem->t = sse_lsp_alloc (mem, SSE_LSP_OBJ_TRUE, sse_sizeof(sse_lsp_obj_true_t)); return mem->t; } sse_lsp_obj_t* sse_lsp_make_int (sse_lsp_mem_t* mem, sse_lsp_int_t value) { sse_lsp_obj_t* obj; obj = sse_lsp_alloc (mem, SSE_LSP_OBJ_INT, sse_sizeof(sse_lsp_obj_int_t)); if (obj == SSE_NULL) return SSE_NULL; SSE_LSP_IVALUE(obj) = value; return obj; } sse_lsp_obj_t* sse_lsp_make_real (sse_lsp_mem_t* mem, sse_lsp_real_t value) { sse_lsp_obj_t* obj; obj = sse_lsp_alloc (mem, SSE_LSP_OBJ_REAL, sse_sizeof(sse_lsp_obj_real_t)); if (obj == SSE_NULL) return SSE_NULL; SSE_LSP_RVALUE(obj) = value; return obj; } sse_lsp_obj_t* sse_lsp_make_symbol (sse_lsp_mem_t* mem, const sse_char_t* str) { return sse_lsp_make_symbolx (mem, str, sse_strlen(str)); } sse_lsp_obj_t* sse_lsp_make_symbolx ( sse_lsp_mem_t* mem, const sse_char_t* str, sse_size_t len) { sse_lsp_obj_t* obj; // look for a sysmbol with the given name obj = mem->used[SSE_LSP_OBJ_SYMBOL]; while (obj != SSE_NULL) { // if there is a symbol with the same name, it is just used. if (sse_lsp_comp_symbol2 (obj, str, len) == 0) return obj; obj = SSE_LSP_LINK(obj); } // no such symbol found. create a new one obj = sse_lsp_alloc (mem, SSE_LSP_OBJ_SYMBOL, sse_sizeof(sse_lsp_obj_symbol_t) + (len + 1) * sse_sizeof(sse_char_t)); if (obj == SSE_NULL) return SSE_NULL; // fill in the symbol buffer sse_lsp_copy_string2 (SSE_LSP_SYMVALUE(obj), str, len); return obj; } sse_lsp_obj_t* sse_lsp_make_string (sse_lsp_mem_t* mem, const sse_char_t* str) { return sse_lsp_make_stringx (mem, str, sse_strlen(str)); } sse_lsp_obj_t* sse_lsp_make_stringx ( sse_lsp_mem_t* mem, const sse_char_t* str, sse_size_t len) { sse_lsp_obj_t* obj; // allocate memory for the string obj = sse_lsp_alloc (mem, SSE_LSP_OBJ_STRING, sse_sizeof(sse_lsp_obj_string_t) + (len + 1) * sse_sizeof(sse_char_t)); if (obj == SSE_NULL) return SSE_NULL; // fill in the string buffer sse_lsp_copy_string2 (SSE_LSP_STRVALUE(obj), str, len); return obj; } sse_lsp_obj_t* sse_lsp_make_cons ( sse_lsp_mem_t* mem, sse_lsp_obj_t* car, sse_lsp_obj_t* cdr) { sse_lsp_obj_t* obj; obj = sse_lsp_alloc (mem, SSE_LSP_OBJ_CONS, sse_sizeof(sse_lsp_obj_cons_t)); if (obj == SSE_NULL) return SSE_NULL; SSE_LSP_CAR(obj) = car; SSE_LSP_CDR(obj) = cdr; return obj; } sse_lsp_obj_t* sse_lsp_make_func ( sse_lsp_mem_t* mem, sse_lsp_obj_t* formal, sse_lsp_obj_t* body) { sse_lsp_obj_t* obj; obj = sse_lsp_alloc (mem, SSE_LSP_OBJ_FUNC, sse_sizeof(sse_lsp_obj_func_t)); if (obj == SSE_NULL) return SSE_NULL; SSE_LSP_FFORMAL(obj) = formal; SSE_LSP_FBODY(obj) = body; return obj; } sse_lsp_obj_t* sse_lsp_make_macro ( sse_lsp_mem_t* mem, sse_lsp_obj_t* formal, sse_lsp_obj_t* body) { sse_lsp_obj_t* obj; obj = sse_lsp_alloc (mem, SSE_LSP_OBJ_MACRO, sse_sizeof(sse_lsp_obj_macro_t)); if (obj == SSE_NULL) return SSE_NULL; SSE_LSP_MFORMAL(obj) = formal; SSE_LSP_MBODY(obj) = body; return obj; } sse_lsp_obj_t* sse_lsp_make_prim (sse_lsp_mem_t* mem, void* impl) { sse_lsp_obj_t* obj; obj = sse_lsp_alloc (mem, SSE_LSP_OBJ_PRIM, sse_sizeof(sse_lsp_obj_prim_t)); if (obj == SSE_NULL) return SSE_NULL; SSE_LSP_PRIM(obj) = impl; return obj; } sse_lsp_assoc_t* sse_lsp_lookup (sse_lsp_mem_t* mem, sse_lsp_obj_t* name) { sse_lsp_frame_t* frame; sse_lsp_assoc_t* assoc; sse_assert (SSE_LSP_TYPE(name) == SSE_LSP_OBJ_SYMBOL); frame = mem->frame; while (frame != SSE_NULL) { assoc = sse_lsp_frame_lookup (frame, name); if (assoc != SSE_NULL) return assoc; frame = frame->link; } return SSE_NULL; } sse_lsp_assoc_t* sse_lsp_set_value ( sse_lsp_mem_t* mem, sse_lsp_obj_t* name, sse_lsp_obj_t* value) { sse_lsp_assoc_t* assoc; assoc = sse_lsp_lookup (mem, name); if (assoc == SSE_NULL) { assoc = sse_lsp_frame_insert_value ( mem->root_frame, name, value); if (assoc == SSE_NULL) return SSE_NULL; } else assoc->value = value; return assoc; } sse_lsp_assoc_t* sse_lsp_set_func ( sse_lsp_mem_t* mem, sse_lsp_obj_t* name, sse_lsp_obj_t* func) { sse_lsp_assoc_t* assoc; assoc = sse_lsp_lookup (mem, name); if (assoc == SSE_NULL) { assoc = sse_lsp_frame_insert_func (mem->root_frame, name, func); if (assoc == SSE_NULL) return SSE_NULL; } else assoc->func = func; return assoc; } sse_size_t sse_lsp_cons_len (sse_lsp_mem_t* mem, sse_lsp_obj_t* obj) { sse_size_t count; sse_assert (obj == mem->nil || SSE_LSP_TYPE(obj) == SSE_LSP_OBJ_CONS); count = 0; //while (obj != mem->nil) { while (SSE_LSP_TYPE(obj) == SSE_LSP_OBJ_CONS) { count++; obj = SSE_LSP_CDR(obj); } return count; } int sse_lsp_probe_args (sse_lsp_mem_t* mem, sse_lsp_obj_t* obj, sse_size_t* len) { sse_size_t count = 0; while (SSE_LSP_TYPE(obj) == SSE_LSP_OBJ_CONS) { count++; obj = SSE_LSP_CDR(obj); } if (obj != mem->nil) return -1; *len = count; return 0; } int sse_lsp_comp_symbol (sse_lsp_obj_t* obj, const sse_char_t* str) { sse_char_t* p; sse_size_t index, length; sse_assert (SSE_LSP_TYPE(obj) == SSE_LSP_OBJ_SYMBOL); index = 0; length = SSE_LSP_SYMLEN(obj); p = SSE_LSP_SYMVALUE(obj); while (index < length) { if (*p > *str) return 1; if (*p < *str) return -1; index++; p++; str++; } return (*str == SSE_T('\0'))? 0: -1; } int sse_lsp_comp_symbol2 (sse_lsp_obj_t* obj, const sse_char_t* str, sse_size_t len) { sse_char_t* p; sse_size_t index, length; sse_assert (SSE_LSP_TYPE(obj) == SSE_LSP_OBJ_SYMBOL); index = 0; length = SSE_LSP_SYMLEN(obj); p = SSE_LSP_SYMVALUE(obj); while (index < length && index < len) { if (*p > *str) return 1; if (*p < *str) return -1; index++; p++; str++; } return (length < len)? -1: (length > len)? 1: 0; } int sse_lsp_comp_string (sse_lsp_obj_t* obj, const sse_char_t* str) { sse_char_t* p; sse_size_t index, length; sse_assert (SSE_LSP_TYPE(obj) == SSE_LSP_OBJ_STRING); index = 0; length = SSE_LSP_STRLEN(obj); p = SSE_LSP_STRVALUE(obj); while (index < length) { if (*p > *str) return 1; if (*p < *str) return -1; index++; p++; str++; } return (*str == SSE_T('\0'))? 0: -1; } int sse_lsp_comp_string2 (sse_lsp_obj_t* obj, const sse_char_t* str, sse_size_t len) { sse_char_t* p; sse_size_t index, length; sse_assert (SSE_LSP_TYPE(obj) == SSE_LSP_OBJ_STRING); index = 0; length = SSE_LSP_STRLEN(obj); p = SSE_LSP_STRVALUE(obj); while (index < length && index < len) { if (*p > *str) return 1; if (*p < *str) return -1; index++; p++; str++; } return (length < len)? -1: (length > len)? 1: 0; } void sse_lsp_copy_string (sse_char_t* dst, const sse_char_t* str) { // the buffer pointed by dst should be big enough to hold str while (*str != SSE_T('\0')) *dst++ = *str++; *dst = SSE_T('\0'); } void sse_lsp_copy_string2 (sse_char_t* dst, const sse_char_t* str, sse_size_t len) { // the buffer pointed by dst should be big enough to hold str while (len > 0) { *dst++ = *str++; len--; } *dst = SSE_T('\0'); }