549 lines
23 KiB
Python
549 lines
23 KiB
Python
import sqlite3
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import DecoratorConstValue as dcv
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import json
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def run():
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exportDb = sqlite3.connect('export.db')
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decorateDb = sqlite3.connect('decorate.db')
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# init table
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print('Init decorate.dll')
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initDecorateDb(decorateDb)
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decorateDb.commit()
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# decorate graph
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graphList = []
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decorateGraph(exportDb, decorateDb, graphList)
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# decorate each graph
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currentGraphBlockCell = {}
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for i in graphList:
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currentGraphBlockCell.clear()
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buildBlock(exportDb, decorateDb, i, currentGraphBlockCell)
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(gWidth, gHeight) = buildCell(exportDb, decorateDb, i, currentGraphBlockCell)
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buildLink(exportDb, decorateDb, i, currentGraphBlockCell, gWidth, gHeight)
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# export information
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buildInfo(exportDb, decorateDb)
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# give up all change of eexport.db (because no change)
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exportDb.close()
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decorateDb.commit()
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decorateDb.close()
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def initDecorateDb(db):
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cur = db.cursor()
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cur.execute("CREATE TABLE graph([graph] INTEGER, [graph_name] TEXT, [width] INTEGER, [height] INTEGER, [index] INTEGER, [belong_to] TEXT);")
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cur.execute("CREATE TABLE info([target] INTEGER, [field] TEXT, [data] TEXT);")
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cur.execute("CREATE TABLE block([belong_to_graph] INETGER, [thisobj] INTEGER, [name] TEXT, [assist_text] TEXT, [pin-ptarget] TEXT, [pin-pin] TEXT, [pin-pout] TEXT, [pin-bin] TEXT, [pin-bout] TEXT, [x] REAL, [y] REAL, [width] REAL, [height] REAL, [expandable] INTEGER);")
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cur.execute("CREATE TABLE cell([belong_to_graph] INETGER, [thisobj] INTEGER, [name] TEXT, [assist_text] TEXT, [x] REAL, [y] REAL, [type] INTEGER);")
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cur.execute("CREATE TABLE link([belong_to_graph] INETGER, [delay] INTEGER, [start_interface] INTEGER, [end_interface] INTEGER, [startobj] INTEGER, [endobj] INTEGER, [start_type] INTEGER, [end_type] INTEGER, [start_index] INTEGER, [end_index] INTEGER, [x1] REAL, [y1] REAL, [x2] REAL, [y2] REAL);")
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def decorateGraph(exDb, deDb, graph):
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exCur = exDb.cursor()
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deCur = deDb.cursor()
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scriptMap = {}
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exCur.execute("SELECT [behavior], [index], [name] FROM script;")
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while True:
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lines = exCur.fetchone()
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if lines == None:
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break
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scriptMap[lines[0]] = (lines[1], lines[2])
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exCur.execute("SELECT [thisobj], [type], [name] FROM behavior WHERE [type] != 0;")
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while True:
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lines = exCur.fetchone()
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if lines == None:
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break
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# add into global graph list
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graph.append(lines[0])
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# width and height will be computed by following method and use update
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# statement to change it
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if lines[1] == 1:
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# script
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deCur.execute("INSERT INTO graph VALUES(?, ?, 0, 0, ?, ?)", (lines[0], lines[2], scriptMap[lines[0]][0], scriptMap[lines[0]][1]))
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else:
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# sub bb
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deCur.execute("INSERT INTO graph VALUES(?, ?, 0, 0, -1, '')", (lines[0], lines[2]))
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def buildBlock(exDb, deDb, target, currentGraphBlockCell):
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exCur = exDb.cursor()
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deCur = deDb.cursor()
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# sort inner bb
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# use current graph input as the start point
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treeRoot = dcv.BBTreeNode(target, -1)
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processedBB = set()
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# layer start from 2, 0 is occupied for pLocal, 1 is occupied for pOper
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arrangedLayer = recursiveBuildBBTree(treeRoot, exCur, processedBB, 2, 0, target)
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# get no linked bb and place them. linked bb position will be computed
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# following
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# calc each bb's x postion, as for y, calc later
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# flat bb tree
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arrangedLayer+=1
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singleBB = set()
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bbResult = {}
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bb_layer_map = {}
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baseX = dcv.GRAPH_CONTENTOFFSET_X
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exCur.execute('SELECT [thisobj], [name], [type], [proto_name], [pin_count] FROM behavior WHERE parent == ?', (target,))
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for i in exCur.fetchall():
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pinSplit = i[4].split(',')
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bbCache = dcv.BBResult(i[1], i[3], pinSplit[1], pinSplit[2], pinSplit[3], pinSplit[4], (i[0] if i[2] != 0 else -1))
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bbCache.computSize()
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if i[0] not in processedBB:
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# single bb, process it
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singleBB.add(i[0])
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bbCache.x = baseX
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baseX += bbCache.width + dcv.GRAPH_BB_SPAN
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bb_layer_map[i[0]] = arrangedLayer
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bbResult[i[0]] = bbCache
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recursiveCalcBBX(treeRoot, dcv.GRAPH_CONTENTOFFSET_X, bbResult, bb_layer_map)
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# calc poper
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allBB = processedBB | singleBB
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processedOper = set()
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pluggedOper = {}
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occupiedLayerCountForSpecificBB = {}
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exCur.execute('SELECT [thisobj] FROM pOper WHERE [belong_to] == ?', (target,))
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newCur = exDb.cursor()
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newCur2 = exDb.cursor()
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for i in exCur.fetchall():
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if i[0] in processedOper:
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continue
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# check current bout, plugin into the first bb
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newCur.execute("SELECT [output_obj] FROM pLink WHERE ([input_obj] == ? AND [output_type] == ? AND [output_is_bb] == 1)", (i[0], dcv.dbPLinkInputOutputType.PIN))
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for j in newCur.fetchall():
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if j[0] in allBB:
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# can be plugin
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# try get tree
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if j[0] not in pluggedOper.keys():
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pluggedOper[j[0]] = {}
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recursiveBuildOperTree(i[0], bb_layer_map, processedOper, occupiedLayerCountForSpecificBB, newCur2, 1, j[0], target, pluggedOper[j[0]])
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# exit for due to have found a proper host bb
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break
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# calc layer position
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layer_height = {}
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layer_y = {}
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layer_height[0] = 25
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layer_height[1] = 50
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for i in bb_layer_map.keys():
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curLayer = bb_layer_map[i]
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if curLayer not in layer_height.keys():
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layer_height[curLayer] = bbResult[i].height
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else:
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layer_height[curLayer] = max(layer_height.get(curLayer, 0), bbResult[i].height)
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layer_height[arrangedLayer] = layer_height.get(arrangedLayer, 0) # make sure misc bb height exist
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for i in occupiedLayerCountForSpecificBB.keys(): # add oper occipation
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layer_height[i] += (occupiedLayerCountForSpecificBB[i] + 1) * dcv.GRAPH_SPAN_BB_POPER
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# calc bb Y
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baseY = dcv.GRAPH_CONTENTOFFSET_Y
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for i in range(arrangedLayer + 1):
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baseY += layer_height[i] + dcv.GRAPH_LAYER_SPAN
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layer_y[i] = baseY
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for i in bbResult.keys():
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cache = bbResult[i]
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layer = bb_layer_map[i]
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cache.y = layer_y[layer] - layer_height[layer]
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# calc oper position
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# flat oper tree
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operResult = {}
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exCur.execute('SELECT [thisobj], [op] FROM pOper WHERE [belong_to] == ?', (target,))
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homelessOperCurrentX = dcv.GRAPH_CONTENTOFFSET_X
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for i in exCur.fetchall():
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if i[0] not in processedOper:
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# homeless oper
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cache2 = dcv.OperResult(i[1])
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cache2.computSize()
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cache2.x = homelessOperCurrentX
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cache2.y = layer_y[1] - cache2.height
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homelessOperCurrentX += cache2.width + dcv.GRAPH_BB_SPAN
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operResult[i[0]] = cache2
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for i in pluggedOper.keys(): # plugged oper
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cache = bbResult[i]
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for j in pluggedOper[i]:
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jCache = pluggedOper[i][j]
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baseX = cache.x
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for q in jCache:
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exCur.execute("SELECT [op] FROM pOper WHERE [thisobj] == ?", (q,))
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cache2 = dcv.OperResult(exCur.fetchone()[0])
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cache2.computSize()
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cache2.x = baseX
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baseX += cache2.width + dcv.GRAPH_BB_SPAN
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cache2.y = cache.y - j * dcv.GRAPH_SPAN_BB_POPER
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operResult[q] = cache2
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# query bb pin's data
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listCache = []
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listItemCache = None
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for i in allBB:
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cache = bbResult[i]
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exCur.execute("SELECT [thisobj], [name], [type] FROM pTarget WHERE [belong_to] == ?;", (i,))
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temp = exCur.fetchone()
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if temp == None:
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cache.ptargetData = '{}'
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else:
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cache.ptargetData = json.dumps(dcv.PinInformation(temp[0], temp[1], temp[2]), cls = dcv.JsonCustomEncoder)
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listCache.clear()
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exCur.execute("SELECT [thisobj], [name] FROM bIn WHERE [belong_to] == ? ORDER BY [index];", (i,))
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for j in exCur.fetchall():
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listItemCache = dcv.PinInformation(j[0], j[1], '')
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listCache.append(listItemCache)
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cache.binData = json.dumps(listCache, cls = dcv.JsonCustomEncoder)
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listCache.clear()
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exCur.execute("SELECT [thisobj], [name] FROM bOut WHERE [belong_to] == ? ORDER BY [index];", (i,))
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for j in exCur.fetchall():
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listItemCache = dcv.PinInformation(j[0], j[1], '')
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listCache.append(listItemCache)
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cache.boutData = json.dumps(listCache, cls = dcv.JsonCustomEncoder)
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listCache.clear()
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exCur.execute("SELECT [thisobj], [name], [type] FROM pIn WHERE [belong_to] == ? ORDER BY [index];", (i,))
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for j in exCur.fetchall():
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listItemCache = dcv.PinInformation(j[0], j[1], j[2])
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listCache.append(listItemCache)
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cache.pinData = json.dumps(listCache, cls = dcv.JsonCustomEncoder)
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listCache.clear()
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exCur.execute("SELECT [thisobj], [name], [type] FROM pOut WHERE [belong_to] == ? ORDER BY [index];", (i,))
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for j in exCur.fetchall():
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listItemCache = dcv.PinInformation(j[0], j[1], j[2])
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listCache.append(listItemCache)
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cache.poutData = json.dumps(listCache, cls = dcv.JsonCustomEncoder)
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# query oper pin's data
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for i in operResult.keys():
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cache = operResult[i]
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listCache.clear()
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exCur.execute("SELECT [thisobj], [name], [type] FROM pIn WHERE [belong_to] == ? ORDER BY [index];", (i,))
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for j in exCur.fetchall():
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listItemCache = dcv.PinInformation(j[0], j[1], j[2])
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listCache.append(listItemCache)
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cache.pinData = json.dumps(listCache, cls = dcv.JsonCustomEncoder)
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listCache.clear()
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exCur.execute("SELECT [thisobj], [name], [type] FROM pOut WHERE [belong_to] == ? ORDER BY [index];", (i,))
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for j in exCur.fetchall():
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listItemCache = dcv.PinInformation(j[0], j[1], j[2])
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listCache.append(listItemCache)
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cache.poutData = json.dumps(listCache, cls = dcv.JsonCustomEncoder)
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# write to database and return
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for i in bbResult.keys():
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cache = bbResult[i]
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currentGraphBlockCell[i] = dcv.BlockCellItem(cache.x, cache.y, cache.width, cache.height)
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deCur.execute('INSERT INTO block VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?)',
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(target, i, cache.name, cache.assistName, cache.ptargetData, cache.pinData, cache.poutData, cache.binData, cache.boutData, cache.x, cache.y, cache.width, cache.height, cache.expandable))
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for i in operResult.keys():
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cache = operResult[i]
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currentGraphBlockCell[i] = dcv.BlockCellItem(cache.x, cache.y, cache.width, cache.height)
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deCur.execute("INSERT INTO block VALUES (?, ?, ?, '', '{}', ?, ?, '[]', '[]', ?, ?, ?, ?, -1)",
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(target, i, cache.name, cache.pinData, cache.poutData, cache.x, cache.y, cache.width, cache.height))
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def recursiveBuildBBTree(node, exCur, processedBB, layer, depth, graphId):
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realLinkedBB = set()
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# find links
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exCur.execute("SELECT [output_obj] FROM bLink WHERE ([input_obj] == ? AND [input_type] == ? AND [belong_to] = ?) ORDER BY [input_index] ASC;",
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(node.bb, (dcv.dbBLinkInputOutputType.INPUT if depth == 0 else dcv.dbBLinkInputOutputType.OUTPUT), graphId))
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for i in exCur.fetchall():
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if i[0] != graphId: # omit self
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realLinkedBB.add(i[0])
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if (len(realLinkedBB) == 0):
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return layer
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# ignore duplicated bb
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# calc need processed bb first
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# and register all gotten bb. for preventing infinity resursive func and
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# keep bb tree structure
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realLinkedBB = realLinkedBB - processedBB
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processedBB.update(realLinkedBB)
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# iterate each bb
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for i in realLinkedBB:
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# recursive execute this method
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newNode = dcv.BBTreeNode(i, layer)
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layer = recursiveBuildBBTree(newNode, exCur, processedBB, layer, depth + 1, graphId)
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# add new node into list and ++layer
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layer+=1
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node.nodes.append(newNode)
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# minus extra ++ due to for
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if (len(realLinkedBB) != 0):
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layer-=1
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return layer
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def recursiveCalcBBX(node, baseX, resultList, layerMap):
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maxExpand = 0
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for i in node.nodes:
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layerMap[i.bb] = i.layer
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resultList[i.bb].x = baseX
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maxExpand = max(maxExpand, resultList[i.bb].width)
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for i in node.nodes:
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recursiveCalcBBX(i, baseX + maxExpand + dcv.GRAPH_BB_SPAN, resultList, layerMap)
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def recursiveBuildOperTree(oper, bb_layer_map, processedOper, occupiedLayerMap, exCur, sublayer, bb, graphId, subLayerColumnMap):
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if oper in processedOper:
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return
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# for avoid fucking export parameter feature. check whether self is
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# current graph's memeber
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exCur.execute("SELECT [belong_to] FROM pOper WHERE [thisobj] == ?;", (oper,))
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if (exCur.fetchone()[0] != graphId):
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# fuck export param, exit
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return
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# make sure sub layer column map is ok
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if sublayer not in subLayerColumnMap.keys():
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subLayerColumnMap[sublayer] = []
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# register self
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# mark processed
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processedOper.add(oper)
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subLayerColumnMap[sublayer].append(oper)
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# record layer occupation
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layer = bb_layer_map[bb]
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occupiedLayerMap[layer] = max(occupiedLayerMap.get(layer, -1), sublayer)
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# iterate sub item
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exCur.execute("SELECT [input_obj] FROM pLink WHERE ([output_obj] == ? AND [input_type] == ? AND [input_is_bb] == 0) ORDER BY [output_index];", (oper, dcv.dbPLinkInputOutputType.POUT))
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res = []
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for i in exCur.fetchall():
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res.append(i[0])
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for i in res:
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recursiveBuildOperTree(i, bb_layer_map, processedOper, occupiedLayerMap, exCur, sublayer + 1, bb, graphId, subLayerColumnMap)
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def buildCell(exDb, deDb, target, currentGraphBlockCell):
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exCur = exDb.cursor()
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deCur = deDb.cursor()
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# prepare block set
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blockSet = set()
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for i in currentGraphBlockCell.keys():
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blockSet.add(i)
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# find current graph's pio bio
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boutx = set()
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pouty = set()
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graphPIO = set()
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# bOut.x and pOut.y data is not confirmed, when graph size was confirmed,
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# update it
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exCur.execute("SELECT [thisobj], [name], [index] FROM bIn WHERE [belong_to] == ?", (target,))
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for i in exCur.fetchall():
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x = 0
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y = dcv.GRAPH_BOFFSET + i[2] * (dcv. BB_PBSIZE + dcv.GRAPH_BSPAN)
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currentGraphBlockCell[i[0]] = dcv.BlockCellItem(x, y, dcv.BB_PBSIZE, dcv.BB_PBSIZE)
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deCur.execute("INSERT INTO cell VALUES (?, ?, ?, '', ?, ?, ?)", (target, i[0], i[1], x, y, dcv.CellType.BIO))
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exCur.execute("SELECT [thisobj], [name], [index] FROM bOut WHERE [belong_to] == ?", (target,))
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for i in exCur.fetchall():
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x = 0
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y = dcv.GRAPH_BOFFSET + i[2] * (dcv. BB_PBSIZE + dcv.GRAPH_BSPAN)
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currentGraphBlockCell[i[0]] = dcv.BlockCellItem(x, y, dcv.BB_PBSIZE, dcv.BB_PBSIZE)
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deCur.execute("INSERT INTO cell VALUES (?, ?, ?, '', ?, ?, ?)", (target, i[0], i[1], x, y, dcv.CellType.BIO))
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boutx.add(i[0])
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exCur.execute("SELECT [thisobj], [name], [index], [type] FROM pIn WHERE [belong_to] == ?", (target,))
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for i in exCur.fetchall():
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x = dcv.GRAPH_POFFSET + i[2] * (dcv. BB_PBSIZE + dcv.GRAPH_PSPAN)
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y = 0
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currentGraphBlockCell[i[0]] = dcv.BlockCellItem(x, y, dcv.BB_PBSIZE, dcv.BB_PBSIZE)
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deCur.execute("INSERT INTO cell VALUES (?, ?, ?, ?, ?, ?, ?)", (target, i[0], i[1], i[3], x, y, dcv.CellType.PIO))
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graphPIO.add(i[0])
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exCur.execute("SELECT [thisobj], [name], [index], [type] FROM pOut WHERE [belong_to] == ?", (target,))
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for i in exCur.fetchall():
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x = dcv.GRAPH_POFFSET + i[2] * (dcv. BB_PBSIZE + dcv.GRAPH_PSPAN)
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y = 0
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currentGraphBlockCell[i[0]] = dcv.BlockCellItem(x, y, dcv.BB_PBSIZE, dcv.BB_PBSIZE)
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deCur.execute("INSERT INTO cell VALUES (?, ?, ?, ?, ?, ?, ?)", (target, i[0], i[1], i[3], x, y, dcv.CellType.PIO))
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graphPIO.add(i[0])
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pouty.add(i[0])
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exCur.execute("SELECT [thisobj], [name], [type] FROM pTarget WHERE [belong_to] == ?", (target,))
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cache = exCur.fetchone()
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if cache != None:
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currentGraphBlockCell[cache[0]] = dcv.BlockCellItem(0, 0, dcv.BB_PBSIZE, dcv.BB_PBSIZE)
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deCur.execute("INSERT INTO cell VALUES (?, ?, ?, ?, 0, 0, ?)", (target, i[0], i[1], i[2], dcv.CellType.PTARGET))
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graphPIO.add(cache[0])
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# query all plocal
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allLocal = set()
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localUsageCounter = {}
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exCur.execute("SELECT [thisobj], [name], [type] FROM pLocal WHERE [belong_to] == ?;", (target,))
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for i in exCur.fetchall():
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allLocal.add(i[0])
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localUsageCounter[i[0]] = dcv.LocalUsageItem(0, False, dcv.LocalUsageType.PLOCAL)
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# query all links(don't need to consider export pIO, due to it will not add
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# any shortcut)
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exCur.execute("SELECT * FROM pLink WHERE [belong_to] == ?", (target,))
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for i in exCur.fetchall():
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# check export pIO.
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if ((i[2] == target) and (i[0] in graphPIO) or (i[6] == target) and (i[1] in graphPIO)):
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# fuck export param
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continue
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# analyse 5 chancee one by one
|
|
if (i[7] == dcv.dbPLinkInputOutputType.PTARGET or i[7] == dcv.dbPLinkInputOutputType.PIN):
|
|
if (i[3] == dcv.dbPLinkInputOutputType.PLOCAL):
|
|
if i[2] in allLocal:
|
|
cache = localUsageCounter[i[2]]
|
|
else:
|
|
cache = dcv.LocalUsageItem(0, True, dcv.LocalUsageType.PLOCAL)
|
|
localUsageCounter[i[2]] = cache
|
|
|
|
cache.count += 1
|
|
cache.lastUse = i[6]
|
|
cache.lastDirection = 0
|
|
cache.lastIndex = i[9]
|
|
|
|
elif (i[3] == dcv.dbPLinkInputOutputType.PIN):
|
|
if i[2] not in blockSet:
|
|
cache = dcv.LocalUsageItem(0, True, dcv.LocalUsageType.PIN)
|
|
localUsageCounter[i[0]] = cache
|
|
|
|
cache.count+=1
|
|
cache.lastUse = i[6]
|
|
cache.lastDirection = 0
|
|
cache.lastIndex = i[9]
|
|
else:
|
|
if i[2] not in blockSet:
|
|
cache = dcv.LocalUsageItem(0, True, dcv.LocalUsageType.POUT)
|
|
localUsageCounter[i[0]] = cache
|
|
|
|
cache.count+=1
|
|
cache.lastUse = i[6]
|
|
cache.lastDirection = 1
|
|
cache.lastIndex = i[9]
|
|
else:
|
|
if (i[7] == dcv.dbPLinkInputOutputType.PLOCAL):
|
|
if i[6] in allLocal:
|
|
cache = localUsageCounter[i[6]]
|
|
else:
|
|
cache = dcv.LocalUsageItem(0, True, dcv.LocalUsageType.PLOCAL)
|
|
localUsageCounter[i[6]] = cache
|
|
|
|
cache.count += 1
|
|
cache.lastUse = i[2]
|
|
cache.lastDirection = 1
|
|
cache.lastIndex = i[5]
|
|
else:
|
|
if i[6] not in blockSet:
|
|
cache = dcv.LocalUsageItem(0, True, dcv.LocalUsageType.POUT)
|
|
localUsageCounter[i[1]] = cache
|
|
|
|
cache.count += 1
|
|
cache.lastUse = i[2]
|
|
cache.lastDirection = 1
|
|
cache.lastIndex = i[5]
|
|
|
|
# apply all cells
|
|
defaultCellIndex = 0
|
|
for i in localUsageCounter.keys():
|
|
cache = localUsageCounter[i]
|
|
# comput x,y
|
|
if (cache.count == 1):
|
|
# attachable
|
|
attachTarget = currentGraphBlockCell[cache.lastUse]
|
|
(x, y) = computCellPosition(attachTarget.x, attachTarget.y, attachTarget.h, cache.lastDirection, cache.lastIndex)
|
|
|
|
else:
|
|
# place it in default area
|
|
y = dcv.GRAPH_CONTENTOFFSET_Y
|
|
x = dcv.GRAPH_CONTENTOFFSET_X + defaultCellIndex * (dcv.CELL_WIDTH + dcv.GRAPH_BB_SPAN)
|
|
defaultCellIndex += 1
|
|
# get information
|
|
if (cache.internal_type == dcv.LocalUsageType.PIN):
|
|
tableName = 'pIn'
|
|
elif (cache.internal_type == dcv.LocalUsageType.POUT):
|
|
tableName = 'pOut'
|
|
else:
|
|
tableName = 'pLocal'
|
|
exCur.execute("SELECT [name], [type] FROM {} WHERE [thisobj] == ?".format(tableName), (i,))
|
|
temp = exCur.fetchone()
|
|
|
|
# submit to database and map
|
|
currentGraphBlockCell[i] = dcv.BlockCellItem(x, y, dcv.CELL_WIDTH, dcv.CELL_HEIGHT)
|
|
deCur.execute("INSERT INTO cell VALUES (?, ?, ?, ?, ?, ?, ?)",
|
|
(target, i, temp[0], temp[1], x, y, (dcv.CellType.SHORTCUT if cache.isshortcut else dcv.CellType.PLOCAL)))
|
|
|
|
# comput size and update database
|
|
graphX = 0
|
|
graphY = 0
|
|
for key, values in currentGraphBlockCell.items():
|
|
graphX = max(graphX, values.x + values.w)
|
|
graphY = max(graphY, values.y + values.h)
|
|
graphX += dcv.GRAPH_POFFSET
|
|
graphY += dcv.GRAPH_BOFFSET
|
|
|
|
deCur.execute("UPDATE graph SET [width] = ?, [height] = ? WHERE [graph] == ?", (graphX, graphY, target))
|
|
|
|
# update bOut.x and pOut.y data
|
|
for i in boutx:
|
|
deCur.execute("UPDATE cell SET [x] = ? WHERE ([thisobj] == ? AND [belong_to_graph] == ?)", (graphX - dcv.BB_PBSIZE, i, target))
|
|
for i in pouty:
|
|
deCur.execute("UPDATE cell SET [y] = ? WHERE ([thisobj] == ? AND [belong_to_graph] == ?)", (graphY - dcv.BB_PBSIZE, i, target))
|
|
|
|
return (graphX, graphY)
|
|
|
|
def computCellPosition(baseX, baseY, height, direction, index):
|
|
if (index == -1):
|
|
return (0, 0)
|
|
|
|
if (direction == 0):
|
|
return (baseX + dcv.BB_POFFSET + index * (dcv.BB_PBSIZE + dcv.BB_PSPAN), baseY - dcv.GRAPH_SPAN_BB_PLOCAL)
|
|
else:
|
|
return (baseX + dcv.BB_POFFSET + index * (dcv.BB_PBSIZE + dcv.BB_PSPAN), baseY + height + dcv.GRAPH_SPAN_BB_PLOCAL)
|
|
|
|
def buildLink(exDb, deDb, target, currentGraphBlockCell, gWidth, gHeight):
|
|
exCur = exDb.cursor()
|
|
deCur = deDb.cursor()
|
|
|
|
# bLink
|
|
exCur.execute("SELECT * FROM bLink WHERE [belong_to] == ?", (target, ))
|
|
for i in exCur.fetchall():
|
|
(x1, y1) = computLinkBTerminal(i[3], i[4], i[5], currentGraphBlockCell, target, gWidth)
|
|
(x2, y2) = computLinkBTerminal(i[6], i[7], i[8], currentGraphBlockCell, target, gWidth)
|
|
deCur.execute("INSERT INTO link VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?);",
|
|
(target, i[2], i[3], i[0], i[1], i[6], i[4], i[7], i[5], i[6], x1, y1, x2, y2))
|
|
|
|
def computLinkBTerminal(obj, type, index, currentGraphBlockCell, target, maxWidth):
|
|
if (obj == target):
|
|
# connect to self
|
|
if (type == 0): # bIn
|
|
return (0, dcv.GRAPH_BOFFSET + index * (dcv.BB_PBSIZE + dcv.GRAPH_BSPAN))
|
|
else: # bOut
|
|
return (maxWidth - dcv.BB_PBSIZE, dcv.GRAPH_BOFFSET + index * (dcv.BB_PBSIZE + dcv.GRAPH_BSPAN))
|
|
else:
|
|
# connect to specific obj
|
|
cache = currentGraphBlockCell[obj]
|
|
if (type == 0): # bIn
|
|
return (cache.x, cache.y + dcv.BB_BOFFSET + index * (dcv.BB_PBSIZE + dcv.BB_BSPAN))
|
|
else: # bOut
|
|
return (cache.x + cache.w - dcv.BB_PBSIZE, cache.y + dcv.BB_BOFFSET + index * (dcv.BB_PBSIZE + dcv.BB_BSPAN))
|
|
|
|
def buildInfo(exDb, deDb):
|
|
exCur = exDb.cursor()
|
|
deCur = deDb.cursor()
|
|
|
|
# export local data (including proto bb internal data)
|
|
exCur.execute("SELECT * FROM pLocalData;")
|
|
for i in exCur.fetchall():
|
|
deCur.execute("INSERT INTO info VALUES (?, ?, ?)", (i[2], i[0], i[1])) |