// checkHandicapBrds checks the LowStates of the Nodes // only suitable for special set boards func checkHandicapBrds(brd1, brd2 *ah.AbstHier) (ret bool) { var c ah.ColValue var r ah.RowValue nCol, nRow := brd1.GetSize() nCol2, nRow2 := brd2.GetSize() if (nCol != nCol2) || (nRow != nRow2) { ret = true } else { for r = 0; ah.RowSize(r) < nRow; r++ { for c = 0; ah.ColSize(c) < nCol; c++ { nl := ah.MakeNodeLoc(c, r) bp1 := &brd1.Graphs[ah.PointLevel].Nodes[nl] bp2 := &brd2.Graphs[ah.PointLevel].Nodes[nl] low1 := bp1.GetNodeLowState() low2 := bp2.GetNodeLowState() // check that both are occupied or unoccupied if ah.IsOccupied(ah.PointStatus(low1)) != ah.IsOccupied(ah.PointStatus(low2)) { ret = true break } } } } return ret }
// SetUpTestBoard stores the test data (string characters) // in the Board as PointStatus information. func SetUpTestBoard(N int, brd *ah.AbstHier, data *[]string) { for r := 0; r < N; r++ { for c := 0; c < N; c++ { brd.SetPoint(ah.MakeNodeLoc(ah.ColValue(c), ah.RowValue(r)), ah.PointStatus((*data)[r][c])) } } }
func (gam *GameTree) DoAE(p ah.NodeLoc, doPlay bool) (err ah.ErrorList) { movType := ah.Unocc // gam.aE = append(gam.aE, p) bp := &gam.Graphs[ah.PointLevel].Nodes[p] cur := bp.GetNodeLowState() if ah.PointStatus(cur) == ah.Black { movType = ah.AE_B } else { // TODO: check for white and add AE_E? movType = ah.AE_W } if doPlay { newSt := gam.Graphs[ah.PointLevel].CompHigh(&(gam.AbstHier), ah.PointLevel, p, uint16(ah.Unocc)) gam.ChangeNodeState(ah.PointLevel, p, ah.NodeStatus(newSt), true) } _ = gam.AddMove(p, movType, 0, ah.NilNodeLoc) return err }
func (gam *GameTree) DoAW(p ah.NodeLoc, doPlay bool) (err ah.ErrorList) { movType := ah.Unocc gam.aW = append(gam.aW, p) bp := &gam.Graphs[ah.PointLevel].Nodes[p] cur := bp.GetNodeLowState() if ah.IsOccupied(ah.PointStatus(cur)) { // TODO: check for black and add AW_W? movType = ah.AW_B } else { movType = ah.AW_U } if doPlay { gam.ChangeNodeState(ah.PointLevel, p, ah.NodeStatus(ah.White), true) } _ = gam.AddMove(p, movType, 0, ah.NilNodeLoc) if doPlay { gam.EachAdjNode(ah.PointLevel, p, func(adjNl ah.NodeLoc) { newSt := gam.Graphs[ah.PointLevel].CompHigh(&(gam.AbstHier), ah.PointLevel, adjNl, uint16(ah.Unocc)) gam.ChangeNodeState(ah.PointLevel, adjNl, ah.NodeStatus(newSt), true) }) } return err }