class Table: """ :param name: string #Table name :param num_columns: int #Number of Columns: all columns are integer :param key: int #Index of table key in columns """ def __init__(self, name, num_columns, key): self.name = name self.key = key self.num_columns = num_columns self.page_directory = { } # Replace with index, and all references inside table and query with index API self.index = Index(self, self.num_columns) self.buffer_pool_range = BufferPoolRange(BUFFER_POOL_SIZE_RANGE, num_columns) # self.page_ranges = [] # self.page_ranges.append(PageRange(self.num_columns)) self.curr_page_range = 0 self.insertRecord([0] * num_columns) # Future function to merge tail records into base records def __merge(self): # create deep copy of page range #for x offset in base page pass def __str__(self): return self.name def createIndex(self, column_num): self.index.create_index(column_num) def getIndex(self, column_num): return self.index.getIndex(column_num) def close(self): self.buffer_pool_range.evictAll() def getName(self): return self.name # Creates a new PageRange if needed, and appends it to page_ranges def newPageRange(self): # self.page_ranges.append(PageRange(self.num_columns)) # self.buffer_pool_range. self.curr_page_range = self.curr_page_range + 1 # Helper function for the translation of RID value to RID components def getOffset(self, rid): return rid % (PAGE_SIZE // COL_DATA_SIZE) # Helper function for the translation of RID value to RID components def getPageR(self, rid): return rid // ((BASE_CONST + TAIL_CONST) * (PAGE_SIZE // COL_DATA_SIZE)) # Helper function for the translation of RID value to RID components def getPageB(self, rid): return (rid // (PAGE_SIZE // COL_DATA_SIZE)) % (BASE_CONST + TAIL_CONST) # Helper function for the translation of RID components to RID value def getRID(self, pageR, pageB, offset): return (pageR * (BASE_CONST + TAIL_CONST) * (PAGE_SIZE // COL_DATA_SIZE)) + ( pageB * (PAGE_SIZE // COL_DATA_SIZE)) + offset # Helper function to find the value of the next RID before writing to basepages def nextBaseRid(self): # Calls for calculation of the first two RID components # #prerid = self.page_ranges[self.curr_page_range].nextBaseRid() prerid = self.buffer_pool_range.nextBaseRid_Pool(self.curr_page_range) # Calculates the last RID component and adds it together with the previous for the next base RID rid = self.curr_page_range * (BASE_CONST + TAIL_CONST) * ( PAGE_SIZE // COL_DATA_SIZE) + prerid return rid # Helper function to find the value of the next tail RID before writing to tail pages def nextTailRid(self, pageR): # Calls for calculation of the first two RID components # #prerid = self.page_ranges[self.curr_page_range].nextTailRid() prerid = self.buffer_pool_range.nextTailRid_Pool(pageR) # print("prerid:", prerid) # Calculates the last RID component and adds it together with the previous for the next tail RID rid = pageR * (BASE_CONST + TAIL_CONST) * (PAGE_SIZE // COL_DATA_SIZE) + prerid return rid # Helper function unique for this metadata scheme def formatCols(self, indir, rid, timestamp, schema, columns): format_cols = [] format_cols.append(indir) format_cols.append(rid) format_cols.append(timestamp) format_cols.append(schema) for index in range(self.num_columns): format_cols.append(columns[index]) return format_cols # Function to set the RID of a record to the invalid value def deleteRecord(self, rid): pageR = self.getPageR(rid) pageB = self.getPageB(rid) offset = self.getOffset(rid) # #self.page_ranges[pageR].deleteRecord(pageB, offset) self.buffer_pool_range.deleteRecord_Pool(pageR, pageB, offset) # Function to check the indirection value of a record before doing a full read def checkIndirection(self, rid): pageR = self.getPageR(rid) pageB = self.getPageB(rid) offset = self.getOffset(rid) # print(pageR, pageB, offset) # #indir = self.page_ranges[pageR].getIndirection(pageB, offset) indir = self.buffer_pool_range.getIndirection_Pool( pageR, pageB, offset) # print("checked indir", indir) if indir == 0: return rid else: return indir def readRecord(self, rid): # Gets the true rid for the most recent version of the data trueRID = self.checkIndirection(rid) # Does the math to calculate pageR, pageB, and offset for record retrieval pageR = self.getPageR(trueRID) pageB = self.getPageB(trueRID) offset = self.getOffset(trueRID) # print("RID:",rid) # print("TrueRID:",trueRID) # print("Reading: Rid=",rid," pageR=",pageR," pageB=",pageB," offset=",offset) # Retrieves record # #full_record = self.page_ranges[pageR].readBlock(pageB, offset) full_record = self.buffer_pool_range.readBlock_Pool( pageR, pageB, offset) # print("Full record:", full_record) if full_record[RID_COLUMN] == 0: return None data_record = full_record[len(full_record) - self.num_columns:] # print(full_record) ret_record = Record(rid, data_record[self.key], data_record) return ret_record def insertRecord(self, columns): # Check for room for base page, if not make more room # #if self.page_ranges[self.curr_page_range].hasCapacityBase() == False: if self.buffer_pool_range.hasCapacityBase_Pool( self.curr_page_range) == False: self.newPageRange() indir = 0 schema_encoding = 0 # '0' * self.num_columns cur_Time = 0 # time() base_rid = self.nextBaseRid() format_columns = self.formatCols(indir, base_rid, cur_Time, schema_encoding, columns) # print(format_columns) # #self.page_ranges[self.curr_page_range].writeBaseBlock(format_columns) self.buffer_pool_range.writeBaseBlock_Pool(self.curr_page_range, format_columns) self.index.insertPair(self.key, columns[self.key], base_rid) return base_rid def updateRecord(self, rid, columns): # Check for room for tail page, if not make more room # #if self.page_ranges[self.curr_page_range].hasCapacityTail() == False: if self.buffer_pool_range.hasCapacityTail_Pool( self.curr_page_range) == False: self.newPageRange() page_R = self.getPageR(rid) page_B = self.getPageB(rid) page_offset = self.getOffset(rid) # #prev_vers = self.page_ranges[page_R].getIndirection(page_B, page_offset) prev_vers = self.buffer_pool_range.getIndirection_Pool( page_R, page_B, page_offset) schema_encoding = 0 # '0' * self.num_columns currTime = 0 # time() tail_rid = self.nextTailRid(page_R) prev_record = self.readRecord(rid) if prev_record is None: return prev_columns = prev_record.getColumns() # print(prev_columns) new_columns = [] for index in range(self.num_columns): if type(columns[index]) == type(None): new_columns.append(prev_columns[index]) else: new_columns.append(columns[index]) # print(new_columns) # print("tail rid:", tail_rid) format_columns = self.formatCols(prev_vers, tail_rid, currTime, schema_encoding, new_columns) # print(format_columns) # #self.page_ranges[self.curr_page_range].writeTailBlock(format_columns) # val = self.buffer_pool_range.writeTailBlock_Pool(self.curr_page_range, format_columns) val = self.buffer_pool_range.writeTailBlock_Pool( page_R, format_columns) tail_rid2 = int(val) # print("written tail rid:", tail_rid2) # #self.page_ranges[page_R].editBlock(page_B, INDIRECTION_COLUMN, page_offset, tail_rid) self.buffer_pool_range.editBlock_Pool(page_R, page_B, INDIRECTION_COLUMN, page_offset, tail_rid)
class Table: """ :param name: string #Table name :param num_columns: int #Number of Columns: all columns are integer :param key: int #Index of table key in columns """ def __init__(self, name, num_columns, key): self.name = name self.key = key self.num_columns = num_columns self.page_directory = {} # Replace with index, and all references inside table and query with index API self.index = Index(self, self.num_columns) self.buffer_pool_range = BufferPoolRange(BUFFER_POOL_SIZE_RANGE, num_columns) # self.page_ranges = [] # self.page_ranges.append(PageRange(self.num_columns)) self.curr_page_range = 0 self.insertRecord([0] * num_columns) #self.merge_queue = Queue() self.lock = threading.Lock() self.lock_manager_rids = {} self.lock_manager_pageRanges = {} def __str__(self): return self.name def lockReadRid(self, rid): self.lock.acquire() val = self.lock_manager_rids.get(rid) if val is None: self.lock_manager_rids[rid] = 0 val = 0 else: pass if val >= 0: self.lock_manager_rids[rid] = val + 1 retval = True else: retval = False self.lock.release() return retval def unlockReadRid(self, rid): self.lock.acquire() val = self.lock_manager_rids.get(rid) if val is None: self.lock_manager_rids[rid] = 0 val = 0 else: pass if val > 0: self.lock_manager_rids[rid] = val - 1 retval = True else: retval = False self.lock.release() return retval def lockWriteRid(self, rid): self.lock.acquire() val = self.lock_manager_rids.get(rid) if val is None: self.lock_manager_rids[rid] = 0 val = 0 else: pass if val == 0: self.lock_manager_rids[rid] = val - 1 retval = True else: retval = False self.lock.release() return retval def unlockWriteRid(self, rid): self.lock.acquire() val = self.lock_manager_rids.get(rid) if val is None: self.lock_manager_rids[rid] = 0 val = 0 else: pass if val == -1: self.lock_manager_rids[rid] = val + 1 retval = True else: retval = False self.lock.release() return retval def lockWriteRange(self, pageR): self.lock.acquire() val = self.lock_manager_pageRanges.get(pageR) if val is None: self.lock_manager_pageRanges[pageR] = 0 val = 0 else: pass if val == 0: self.lock_manager_pageRanges[pageR] = val - 1 retval = True else: retval = False self.lock.release() return retval def unlockWriteRange(self, pageR): self.lock.acquire() val = self.lock_manager_pageRanges.get(pageR) if val is None: self.lock_manager_pageRanges[pageR] = 0 val = 0 else: pass if val == -1: self.lock_manager_pageRanges[pageR] = val + 1 retval = True else: retval = False self.lock.release() return retval # Future function to merge tail records into base records def merge(self, pageR): # create deep copy of page range deep_copy = self.buffer_pool_range.loadMerge(pageR) tail_blocks = deep_copy.tail_count - 1 #indexes clear for removal, shift constant new_copy = PageRange(self.num_columns) read_block = None # for all base blocks in deep_copy page range for pageB in range(0, deep_copy.max_base): # for all base records in a base block for offset in range(0, deep_copy.page_blocks[pageB].pages[0].num_records): # check if records is invalid read_block = [0] * deep_copy.page_blocks[0].total # print("Empty read block:", read_block) if deep_copy.getRID(pageB, offset) == 0: # empty record found, create empty record for writing pass else: # record found, check indir column for most up to date version indir = deep_copy.getIndirection(pageB, offset) if indir == 0: # version is up to date, copy over from original base record read_block = deep_copy.readBlock(pageB, offset) else: # version is not up to date, copy over from indir tail record inder_pageB = self.getPageB(indir) inder_offset = self.getOffset(indir) read_block = deep_copy.readBlock(inder_pageB, inder_offset) # set record indir column to the original indir value read_block[INDIRECTION_COLUMN] = indir # print("read_block:", read_block) checker = new_copy.hasCapacityBase() if checker: new_copy.writeBaseBlock(read_block) else: print("Unexpected error, new_copy at capacity") self.buffer_pool_range.submitMerge(pageR, new_copy, tail_blocks) ''' def enqueueMerge(self, pageR): self.merge_queue.enqueue def checkMerge(self): if self.merge_queue.empty(): pass else: # run merge next = self.merge_queue.get() self.__merge(next) pass ''' def createIndex(self, column_num): self.index.create_index(column_num) def getIndex(self, column_num): return self.index.getIndex(column_num) def close(self): self.buffer_pool_range.evictAll() self.buffer_pool_range.lock = None def getName(self): return self.name # Creates a new PageRange if needed, and appends it to page_ranges def newPageRange(self): # self.page_ranges.append(PageRange(self.num_columns)) # self.buffer_pool_range. self.curr_page_range = self.curr_page_range + 1 # Helper function for the translation of RID value to RID components def getOffset(self, rid): return rid % (PAGE_SIZE // COL_DATA_SIZE) # Helper function for the translation of RID value to RID components def getPageR(self, rid): return rid // ((BASE_CONST + TAIL_CONST) * (PAGE_SIZE // COL_DATA_SIZE)) # Helper function for the translation of RID value to RID components def getPageB(self, rid): return (rid // (PAGE_SIZE // COL_DATA_SIZE)) % (BASE_CONST + TAIL_CONST) # Helper function for the translation of RID components to RID value def getRID(self, pageR, pageB, offset): return (pageR * (BASE_CONST + TAIL_CONST) * (PAGE_SIZE // COL_DATA_SIZE)) + ( pageB * (PAGE_SIZE // COL_DATA_SIZE)) + offset # Helper function to find the value of the next RID before writing to basepages def nextBaseRid(self): # Calls for calculation of the first two RID components # #prerid = self.page_ranges[self.curr_page_range].nextBaseRid() prerid = self.buffer_pool_range.nextBaseRid_Pool(self.curr_page_range) # Calculates the last RID component and adds it together with the previous for the next base RID rid = self.curr_page_range * (BASE_CONST + TAIL_CONST) * (PAGE_SIZE // COL_DATA_SIZE) + prerid return rid # Helper function to find the value of the next tail RID before writing to tail pages def nextTailRid(self, pageR): # Calls for calculation of the first two RID components # #prerid = self.page_ranges[self.curr_page_range].nextTailRid() prerid = self.buffer_pool_range.nextTailRid_Pool(pageR) # print("prerid:", prerid) # Calculates the last RID component and adds it together with the previous for the next tail RID rid = pageR * (BASE_CONST + TAIL_CONST) * (PAGE_SIZE // COL_DATA_SIZE) + prerid return rid # Helper function unique for this metadata scheme def formatCols(self, indir, rid, timestamp, schema, columns): format_cols = [] format_cols.append(indir) format_cols.append(rid) format_cols.append(timestamp) format_cols.append(schema) for index in range(self.num_columns): format_cols.append(columns[index]) return format_cols # Function to set the RID of a record to the invalid value def deleteRecord(self, rid): pageR = self.getPageR(rid) pageB = self.getPageB(rid) offset = self.getOffset(rid) # #self.page_ranges[pageR].deleteRecord(pageB, offset) self.buffer_pool_range.deleteRecord_Pool(pageR, pageB, offset) # Function to check the indirection value of a record before doing a full read def checkIndirection(self, rid): pageR = self.getPageR(rid) pageB = self.getPageB(rid) offset = self.getOffset(rid) # print(pageR, pageB, offset) # #indir = self.page_ranges[pageR].getIndirection(pageB, offset) indir = self.buffer_pool_range.getIndirection_Pool(pageR, pageB, offset) # print("checked indir", indir) if indir == 0: return rid else: return indir def readFullRecord(self,rid): # Gets the true rid for the most recent version of the data trueRID = self.checkIndirection(rid) # Does the math to calculate pageR, pageB, and offset for record retrieval pageR = self.getPageR(trueRID) pageB = self.getPageB(trueRID) offset = self.getOffset(trueRID) # print("RID:",rid) # print("TrueRID:",trueRID) # print("Reading: Rid=",rid," pageR=",pageR," pageB=",pageB," offset=",offset) # Retrieves record # #full_record = self.page_ranges[pageR].readBlock(pageB, offset) full_record = self.buffer_pool_range.readBlock_Pool(pageR, pageB, offset) return full_record def readRecord(self, rid): # Gets the true rid for the most recent version of the data trueRID = self.checkIndirection(rid) # Does the math to calculate pageR, pageB, and offset for record retrieval pageR = self.getPageR(trueRID) pageB = self.getPageB(trueRID) offset = self.getOffset(trueRID) # print("RID:",rid) # print("TrueRID:",trueRID) # print("Reading: Rid=",rid," pageR=",pageR," pageB=",pageB," offset=",offset) # Retrieves record # #full_record = self.page_ranges[pageR].readBlock(pageB, offset) full_record = self.buffer_pool_range.readBlock_Pool(pageR, pageB, offset) # print("Full record:", full_record) if full_record[RID_COLUMN] == 0: return None data_record = full_record[len(full_record) - self.num_columns:] # print(full_record) ret_record = Record(rid, data_record[self.key], data_record) return ret_record def insertRecord(self, columns): # Check for room for base page, if not make more room # #if self.page_ranges[self.curr_page_range].hasCapacityBase() == False: if self.buffer_pool_range.hasCapacityBase_Pool(self.curr_page_range) == False: self.newPageRange() indir = 0 schema_encoding = 0 # '0' * self.num_columns cur_Time = 0 # time() base_rid = self.nextBaseRid() format_columns = self.formatCols(indir, base_rid, cur_Time, schema_encoding, columns) # print(format_columns) # #self.page_ranges[self.curr_page_range].writeBaseBlock(format_columns) self.buffer_pool_range.writeBaseBlock_Pool(self.curr_page_range, format_columns) self.index.insertPair(self.key, columns[self.key], base_rid) # Redundant to make sure we always have a current working page range if self.buffer_pool_range.hasCapacityBase_Pool(self.curr_page_range) == False: self.newPageRange() return base_rid def updateRecord(self, rid, columns): # Check for room for tail page, if not make more room # #if self.page_ranges[self.curr_page_range].hasCapacityTail() == False: # print("update record space check", self.buffer_pool_range.hasCapacityTail_Pool(self.curr_page_range)) if self.buffer_pool_range.hasCapacityTail_Pool(self.curr_page_range) == False: self.newPageRange() page_R = self.getPageR(rid) page_B = self.getPageB(rid) page_offset = self.getOffset(rid) # #prev_vers = self.page_ranges[page_R].getIndirection(page_B, page_offset) prev_vers = self.buffer_pool_range.getIndirection_Pool(page_R, page_B, page_offset) schema_encoding = 0 # '0' * self.num_columns currTime = 0 # time() tail_rid = self.nextTailRid(page_R) prev_record = self.readRecord(rid) if prev_record is None: return prev_columns = prev_record.getColumns() # print(prev_columns) new_columns = [] for index in range(self.num_columns): if type(columns[index]) == type(None): new_columns.append(prev_columns[index]) else: new_columns.append(columns[index]) # print(new_columns) # print("tail rid:", tail_rid) format_columns = self.formatCols(prev_vers, tail_rid, currTime, schema_encoding, new_columns) # print(format_columns) # #self.page_ranges[self.curr_page_range].writeTailBlock(format_columns) # val = self.buffer_pool_range.writeTailBlock_Pool(self.curr_page_range, format_columns) val = self.buffer_pool_range.writeTailBlock_Pool(page_R, format_columns) tail_rid2 = int(val) # print("written tail rid:", tail_rid2) # #self.page_ranges[page_R].editBlock(page_B, INDIRECTION_COLUMN, page_offset, tail_rid) self.buffer_pool_range.editBlock_Pool(page_R, page_B, INDIRECTION_COLUMN, page_offset, tail_rid)