/* * This file is part of the PikaScript project. * http://github.com/pikastech/pikascript * * MIT License * * Copyright (c) 2021 lyon 李昂 liang6516@outlook.com * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #include "dataArg.h" #include "PikaObj.h" #include "dataArgs.h" #include "dataMemory.h" #include "dataString.h" #include "stdlib.h" uint32_t arg_getTotleSize(Arg* self) { return arg_totleSize(self); } /** * time33 hash */ Hash hash_time33(char* str) { Hash hash = 5381; while (*str) { hash += (hash << 5) + (*str++); } return (hash & 0x7FFFFFFF); } static Arg* arg_init_hash(Hash nameHash, ArgType type, uint8_t* content, uint32_t size, Arg* next) { Arg* self = (Arg*)pikaMalloc(sizeof(Arg) + size); arg_setNext(self, next); self->size = size; self->name_hash = nameHash; self->type = type; arg_setSerialized(self, PIKA_TRUE); arg_setIsKeyword(self, PIKA_FALSE); __platform_memset(arg_getContent(self), 0, aline_by(size, sizeof(uint32_t))); if (NULL != content) { __platform_memcpy(arg_getContent(self), content, size); } return self; } static Arg* arg_init(char* name, ArgType type, uint8_t* content, uint32_t size, Arg* next) { Hash nameHash = hash_time33(name); return arg_init_hash(nameHash, type, content, size, next); } void arg_init_stack(Arg* self, uint8_t* buffer, uint32_t size) { self->_.buffer = buffer; self->size = size; self->type = ARG_TYPE_UNDEF; self->name_hash = 0; arg_setSerialized(self, PIKA_FALSE); arg_setIsKeyword(self, PIKA_FALSE); } uint32_t arg_totleSize(Arg* self) { return ((Arg*)self)->size + sizeof(Arg); } void arg_freeContent(Arg* self) { if (NULL != self) { uint32_t totleSize = arg_totleSize(self); pikaFree(self, totleSize); return; } } Arg* arg_setContent(Arg* self, uint8_t* content, uint32_t size) { if (NULL == self) { /* malloc */ return arg_init("", ARG_TYPE_NONE, content, size, NULL); } /* only copy */ if (arg_getSize(self) >= size) { __platform_memcpy(arg_getContent((Arg*)self), content, size); return self; } /* realloc */ Hash nameHash = arg_getNameHash(self); ArgType type = arg_getType(self); Arg* next = arg_getNext(self); Arg* newContent = arg_init_hash(nameHash, type, content, size, next); arg_freeContent(self); return newContent; } Arg* arg_setNameHash(Arg* self, Hash nameHash) { if (NULL == self) { return arg_init_hash(nameHash, ARG_TYPE_NONE, NULL, 0, NULL); } Arg* arg = (Arg*)self; arg->name_hash = nameHash; return self; } Arg* arg_setName(Arg* self, char* name) { return arg_setNameHash(self, hash_time33(name)); } Arg* arg_setType(Arg* self, ArgType type) { if (NULL == self) { return arg_init("", type, NULL, 0, NULL); } self->type = type; return self; } Arg* arg_setBytes(Arg* self, char* name, uint8_t* src, size_t size) { self = arg_newContent(self, size + sizeof(size_t) + 1); if (NULL == self) { return NULL; } self = arg_setName(self, name); self = arg_setType(self, ARG_TYPE_BYTES); void* dir = arg_getContent(self); /* set content all to 0 */ __platform_memset(dir, 0, size + sizeof(size_t) + 1); /* setsize */ __platform_memcpy(dir, &size, sizeof(size_t)); /* set init value */ if (NULL != src) { __platform_memcpy((void*)((uintptr_t)dir + sizeof(size_t)), src, size); } return self; } Arg* arg_newContent(Arg* self, uint32_t size) { arg_freeContent(self); Arg* newContent = arg_init("", ARG_TYPE_NONE, NULL, size, NULL); return newContent; } uint8_t* arg_getBytes(Arg* self) { return arg_getContent(self) + sizeof(size_t); } void arg_printBytes(Arg* self) { size_t bytes_size = arg_getBytesSize(self); uint8_t* bytes = arg_getBytes(self); __platform_printf("b\'"); for (size_t i = 0; i < bytes_size; i++) { __platform_printf("\\x%02x", bytes[i]); } __platform_printf("\'\r\n"); } size_t arg_getBytesSize(Arg* self) { size_t mem_size = 0; void* content = (void*)arg_getContent(self); if (NULL == content) { return 0; } __platform_memcpy(&mem_size, content, sizeof(size_t)); return mem_size; } Arg* arg_setStruct(Arg* self, char* name, void* struct_ptr, uint32_t struct_size) { if (NULL == struct_ptr) { return NULL; } Arg* struct_arg = arg_setContent(NULL, (uint8_t*)struct_ptr, struct_size); struct_arg = arg_setType(struct_arg, ARG_TYPE_STRUCT); struct_arg = arg_setName(struct_arg, name); return struct_arg; } Arg* arg_setHeapStruct(Arg* self, char* name, void* struct_ptr, uint32_t struct_size, void* struct_deinit_fun) { if (NULL == struct_ptr) { return NULL; } Arg* struct_arg = arg_setContent(NULL, (uint8_t*)&struct_deinit_fun, sizeof(void*)); struct_arg = arg_append(struct_arg, (uint8_t*)struct_ptr, struct_size); struct_arg = arg_setType(struct_arg, ARG_TYPE_STRUCT_HEAP); struct_arg = arg_setName(struct_arg, name); return struct_arg; } void* arg_getHeapStructDeinitFun(Arg* self) { void* deinit_fun = NULL; __platform_memcpy(&deinit_fun, arg_getContent(self), sizeof(void*)); return deinit_fun; } Arg* arg_setInt(Arg* self, char* name, int64_t val) { if (NULL == self) { return arg_init(name, ARG_TYPE_INT, (uint8_t*)&val, sizeof(val), NULL); } self = arg_setContent(self, (uint8_t*)&val, sizeof(val)); self = arg_setType(self, ARG_TYPE_INT); self = arg_setName(self, name); return self; } Arg* arg_setNull(Arg* self) { return arg_init("", ARG_TYPE_NONE, NULL, 0, NULL); } Arg* arg_setFloat(Arg* self, char* name, double val) { if (NULL == self) { return arg_init(name, ARG_TYPE_FLOAT, (uint8_t*)&val, sizeof(val), NULL); } self = arg_setContent(self, (uint8_t*)&val, sizeof(val)); self = arg_setType(self, ARG_TYPE_FLOAT); self = arg_setName(self, name); return self; } double arg_getFloat(Arg* self) { if (NULL == arg_getContent(self)) { return -999.999; } return *(double*)arg_getContent(self); } Arg* arg_setPtr(Arg* self, char* name, ArgType type, void* pointer) { return arg_init(name, type, (uint8_t*)&pointer, sizeof(uintptr_t), NULL); } Arg* arg_setStr(Arg* self, char* name, char* string) { if (NULL == string) { return NULL; } return arg_init(name, ARG_TYPE_STRING, (uint8_t*)string, strGetSize(string) + 1, NULL); } int64_t arg_getInt(Arg* self) { pika_assert(NULL != self); if (NULL == arg_getContent(self)) { return -999999; } return *(int64_t*)arg_getContent(self); } void* arg_getPtr(Arg* self) { if (NULL == arg_getContent(self)) { return NULL; } return *(void**)arg_getContent(self); } char* arg_getStr(Arg* self) { return (char*)arg_getContent(self); } Hash arg_getNameHash(Arg* self) { if (NULL == self) { return 999999; } return self->name_hash; } ArgType arg_getType(Arg* self) { if (NULL == self) { return ARG_TYPE_NONE; } return (ArgType)self->type; } uint32_t arg_getContentSize(Arg* self) { return arg_getSize(self); } Arg* New_arg(void* voidPointer) { return NULL; } Arg* arg_copy(Arg* arg_src) { if (NULL == arg_src) { return NULL; } ArgType arg_type = arg_getType(arg_src); if (ARG_TYPE_OBJECT == arg_type) { obj_refcntInc((PikaObj*)arg_getPtr(arg_src)); } Arg* argCopied = New_arg(NULL); argCopied = arg_setContent(argCopied, arg_getContent(arg_src), arg_getContentSize(arg_src)); argCopied = arg_setNameHash(argCopied, arg_getNameHash(arg_src)); argCopied = arg_setType(argCopied, arg_getType(arg_src)); return argCopied; } Arg* arg_copy_noalloc(Arg* arg_src, Arg* arg_dict) { if (NULL == arg_src) { return NULL; } if (NULL == arg_dict) { return arg_copy(arg_src); } /* size is too big to be copied by noalloc */ if (arg_getSize(arg_src) > arg_getSize(arg_dict)) { return arg_copy(arg_src); } ArgType arg_type = arg_getType(arg_src); if (ARG_TYPE_OBJECT == arg_type) { obj_refcntInc((PikaObj*)arg_getPtr(arg_src)); } arg_setSerialized(arg_dict, PIKA_FALSE); arg_dict = arg_setContent(arg_dict, arg_getContent(arg_src), arg_getContentSize(arg_src)); arg_dict = arg_setNameHash(arg_dict, arg_getNameHash(arg_src)); arg_dict = arg_setType(arg_dict, arg_getType(arg_src)); return arg_dict; } Arg* arg_append(Arg* self, void* new_content, size_t new_size) { uint8_t* old_content = arg_getContent(self); size_t old_size = arg_getContentSize(self); /* create arg_out */ Arg* arg_out = arg_setContent(NULL, NULL, old_size + new_size); arg_setType(arg_out, arg_getType(self)); arg_setNameHash(arg_out, arg_getNameHash(self)); /* copy old content */ __platform_memcpy(arg_getContent(arg_out), old_content, old_size); /* copy new content */ __platform_memcpy(arg_getContent(arg_out) + old_size, new_content, new_size); arg_deinit(self); return arg_out; } void* arg_getHeapStruct(Arg* self) { return arg_getContent(self) + sizeof(void*); } void arg_deinitHeap(Arg* self) { ArgType type = arg_getType(self); /* deinit heap struct */ if (type == ARG_TYPE_STRUCT_HEAP) { /* deinit heap strcut */ StructDeinitFun struct_deinit_fun = (StructDeinitFun)arg_getHeapStructDeinitFun(self); struct_deinit_fun(arg_getHeapStruct(self)); } /* deinit sub object */ if (ARG_TYPE_OBJECT == type) { PikaObj* subObj = arg_getPtr(self); obj_refcntDec(subObj); int ref_cnt = obj_refcntNow(subObj); if (ref_cnt <= 0) { obj_deinit(subObj); } } } /* load file as byte array */ Arg* arg_loadFile(Arg* self, char* filename) { size_t file_size = 0; char* file_buff = __platform_malloc(PIKA_READ_FILE_BUFF_SIZE); Arg* res = New_arg(NULL); __platform_memset(file_buff, 0, PIKA_READ_FILE_BUFF_SIZE); FILE* input_file = __platform_fopen(filename, "rb"); if (NULL == input_file) { __platform_printf("Error: Couldn't open file '%s'\n", filename); res = NULL; goto exit; } file_size = __platform_fread(file_buff, 1, PIKA_READ_FILE_BUFF_SIZE, input_file); if (file_size >= PIKA_READ_FILE_BUFF_SIZE) { __platform_printf("Error: Not enough buff for input file.\r\n"); return NULL; } /* add '\0' to the end of the string */ res = arg_setBytes(res, "", (uint8_t*)file_buff, file_size + 1); exit: __platform_free(file_buff); if (NULL != input_file) { __platform_fclose(input_file); } return res; } void arg_deinit(Arg* self) { if (NULL == self) { return; } /* deinit arg pointed heap */ arg_deinitHeap(self); if (!arg_getSerialized(self)) { return; } /* free the ref */ arg_freeContent(self); }