- command.c in full: the command dispatcher with repeat counts, run prefixes, ctrl-run door-stop mode, fight-to-death targeting, and all wizard debug commands; search, help, identify, d_level/u_level, call, current - main.c completed: Run()/playit() with the C double ROGUEOPTS parse; exit()-anywhere becomes a gameEnd panic recovered in Run - save.c + state.c: gob SaveState snapshot with explicit pointer-to- index fixups for equipment, monster rooms, and chase targets (the rs_fix_thing role); save file deleted on restore as in C; SIGHUP/ SIGTERM autosave hook - wizard.c completed (create_obj, show_map), passages.c add_pass - term/: tcell/v2 Terminal — the one third-party dependency — replacing curses and mdport's 900-line key decoder; shell escape via suspend - cmd/rogue: flags -s/-d, SEED (wizard), ROGUEOPTS, ROGUE_WIZARD Tests: full scripted sessions through Run (quit, descend stairs, 3200-move crash sweep, save-command round trip). Notable fixes found by tests: gob silently drops embedded fields of unexported types, and --More-- prompts swallow space-free input scripts.
335 lines
7.9 KiB
Go
335 lines
7.9 KiB
Go
package game
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// passages.c — draw the connecting passages.
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// rdesConn is the hardcoded 3x3 room adjacency matrix from do_passages.
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var rdesConn = [MaxRooms][MaxRooms]bool{
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{false, true, false, true, false, false, false, false, false},
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{true, false, true, false, true, false, false, false, false},
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{false, true, false, false, false, true, false, false, false},
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{true, false, false, false, true, false, true, false, false},
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{false, true, false, true, false, true, false, true, false},
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{false, false, true, false, true, false, false, false, true},
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{false, false, false, true, false, false, false, true, false},
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{false, false, false, false, true, false, true, false, true},
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{false, false, false, false, false, true, false, true, false},
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}
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// doPassages draws all the passages on a level (passages.c do_passages).
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func (g *RogueGame) doPassages() {
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var isconn [MaxRooms][MaxRooms]bool
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var ingraph [MaxRooms]bool
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// starting with one room, connect it to a random adjacent room and
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// then pick a new room to start with.
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roomcount := 1
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r1 := g.rnd(MaxRooms)
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ingraph[r1] = true
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for {
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// find a room to connect with
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j := 0
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r2 := -1
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for i := 0; i < MaxRooms; i++ {
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if rdesConn[r1][i] && !ingraph[i] {
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if j++; g.rnd(j) == 0 {
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r2 = i
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}
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}
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}
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if j == 0 {
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// if no adjacent rooms are outside the graph, pick a new room
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// to look from
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for {
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r1 = g.rnd(MaxRooms)
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if ingraph[r1] {
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break
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}
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}
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} else {
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// otherwise, connect new room to the graph, and draw a tunnel
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// to it
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ingraph[r2] = true
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g.conn(r1, r2)
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isconn[r1][r2] = true
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isconn[r2][r1] = true
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roomcount++
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}
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if roomcount >= MaxRooms {
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break
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}
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}
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// attempt to add passages to the graph a random number of times so that
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// there isn't always just one unique passage through it.
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for roomcount = g.rnd(5); roomcount > 0; roomcount-- {
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r1 = g.rnd(MaxRooms) // a random room to look from
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// find an adjacent room not already connected
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j := 0
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r2 := -1
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for i := 0; i < MaxRooms; i++ {
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if rdesConn[r1][i] && !isconn[r1][i] {
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if j++; g.rnd(j) == 0 {
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r2 = i
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}
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}
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}
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// if there is one, connect it and look for the next added passage
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if j != 0 {
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g.conn(r1, r2)
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isconn[r1][r2] = true
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isconn[r2][r1] = true
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}
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}
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g.passnum()
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}
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// conn draws a corridor from a room in a certain direction (passages.c
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// conn).
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func (g *RogueGame) conn(r1, r2 int) {
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var rm int
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var direc byte
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if r1 < r2 {
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rm = r1
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if r1+1 == r2 {
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direc = 'r'
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} else {
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direc = 'd'
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}
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} else {
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rm = r2
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if r2+1 == r1 {
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direc = 'r'
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} else {
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direc = 'd'
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}
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}
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rpf := &g.Level.Rooms[rm]
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// Set up the movement variables, in two cases: first drawing one down.
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var rpt *Room
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var del, turnDelta, spos, epos Coord
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var distance, turnDistance int
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if direc == 'd' {
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rmt := rm + 3 // room # of dest
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rpt = &g.Level.Rooms[rmt] // room pointer of dest
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del = Coord{X: 0, Y: 1} // direction of move
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spos = rpf.Pos // start of move
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epos = rpt.Pos // end of move
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if !rpf.Flags.Has(IsGone) { // if not gone pick door pos
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for {
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spos.X = rpf.Pos.X + g.rnd(rpf.Max.X-2) + 1
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spos.Y = rpf.Pos.Y + rpf.Max.Y - 1
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if !(rpf.Flags.Has(IsMaze) && !g.Level.FlagsAt(spos.Y, spos.X).Has(FPass)) {
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break
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}
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}
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}
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if !rpt.Flags.Has(IsGone) {
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for {
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epos.X = rpt.Pos.X + g.rnd(rpt.Max.X-2) + 1
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if !(rpt.Flags.Has(IsMaze) && !g.Level.FlagsAt(epos.Y, epos.X).Has(FPass)) {
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break
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}
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}
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}
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distance = abs(spos.Y-epos.Y) - 1 // distance to move
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turnDelta.Y = 0 // direction to turn
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if spos.X < epos.X {
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turnDelta.X = 1
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} else {
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turnDelta.X = -1
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}
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turnDistance = abs(spos.X - epos.X) // how far to turn
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} else { // setup for moving right
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rmt := rm + 1
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rpt = &g.Level.Rooms[rmt]
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del = Coord{X: 1, Y: 0}
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spos = rpf.Pos
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epos = rpt.Pos
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if !rpf.Flags.Has(IsGone) {
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for {
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spos.X = rpf.Pos.X + rpf.Max.X - 1
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spos.Y = rpf.Pos.Y + g.rnd(rpf.Max.Y-2) + 1
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if !(rpf.Flags.Has(IsMaze) && !g.Level.FlagsAt(spos.Y, spos.X).Has(FPass)) {
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break
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}
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}
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}
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if !rpt.Flags.Has(IsGone) {
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for {
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epos.Y = rpt.Pos.Y + g.rnd(rpt.Max.Y-2) + 1
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if !(rpt.Flags.Has(IsMaze) && !g.Level.FlagsAt(epos.Y, epos.X).Has(FPass)) {
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break
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}
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}
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}
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distance = abs(spos.X-epos.X) - 1
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if spos.Y < epos.Y {
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turnDelta.Y = 1
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} else {
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turnDelta.Y = -1
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}
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turnDelta.X = 0
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turnDistance = abs(spos.Y - epos.Y)
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}
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turnSpot := g.rnd(distance-1) + 1 // where turn starts
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// Draw in the doors on either side of the passage or just put #'s if
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// the rooms are gone.
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if !rpf.Flags.Has(IsGone) {
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g.door(rpf, spos)
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} else {
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g.putpass(spos)
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}
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if !rpt.Flags.Has(IsGone) {
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g.door(rpt, epos)
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} else {
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g.putpass(epos)
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}
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// Get ready to move...
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curr := spos
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for distance > 0 {
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// Move to new position
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curr.X += del.X
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curr.Y += del.Y
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// Check if we are at the turn place, if so do the turn
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if distance == turnSpot {
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for ; turnDistance > 0; turnDistance-- {
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g.putpass(curr)
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curr.X += turnDelta.X
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curr.Y += turnDelta.Y
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}
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}
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// Continue digging along
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g.putpass(curr)
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distance--
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}
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curr.X += del.X
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curr.Y += del.Y
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if curr != epos {
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g.msg("warning, connectivity problem on this level")
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}
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}
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// putpass adds a passage character or secret passage here (passages.c
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// putpass).
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func (g *RogueGame) putpass(cp Coord) {
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pp := g.Level.At(cp.Y, cp.X)
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pp.Flags.Set(FPass)
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if g.rnd(10)+1 < g.Depth && g.rnd(40) == 0 {
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pp.Flags.Clear(FReal)
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} else {
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pp.Ch = Passage
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}
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}
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// door adds a door or possibly a secret door; also enters the door in the
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// exits array of the room (passages.c door).
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func (g *RogueGame) door(rm *Room, cp Coord) {
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rm.Exits = append(rm.Exits, cp)
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if rm.Flags.Has(IsMaze) {
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return
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}
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pp := g.Level.At(cp.Y, cp.X)
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if g.rnd(10)+1 < g.Depth && g.rnd(5) == 0 {
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if cp.Y == rm.Pos.Y || cp.Y == rm.Pos.Y+rm.Max.Y-1 {
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pp.Ch = '-'
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} else {
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pp.Ch = '|'
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}
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pp.Flags.Clear(FReal)
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} else {
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pp.Ch = Door
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}
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}
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// addPass adds the passages to the current window — wizard command
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// (passages.c add_pass).
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func (g *RogueGame) addPass() {
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for y := 1; y < NumLines-1; y++ {
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for x := 0; x < NumCols; x++ {
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pp := g.Level.At(y, x)
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if pp.Flags.Has(FPass) || pp.Ch == Door ||
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(!pp.Flags.Has(FReal) && (pp.Ch == '|' || pp.Ch == '-')) {
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ch := pp.Ch
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if pp.Flags.Has(FPass) {
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ch = Passage
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}
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pp.Flags.Set(FSeen)
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g.move(y, x)
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if pp.Monst != nil {
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pp.Monst.OldCh = pp.Ch
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} else if pp.Flags.Has(FReal) {
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g.addch(ch)
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} else {
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g.standout()
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if pp.Flags.Has(FPass) {
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g.addch(Passage)
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} else {
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g.addch(Door)
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}
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g.standend()
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}
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}
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}
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}
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}
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// passnum assigns a number to each passageway (passages.c passnum).
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func (g *RogueGame) passnum() {
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g.pnum = 0
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g.newpnum = false
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for i := range g.Level.Passages {
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g.Level.Passages[i].Exits = g.Level.Passages[i].Exits[:0]
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}
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for i := range g.Level.Rooms {
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rp := &g.Level.Rooms[i]
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for j := range rp.Exits {
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g.newpnum = true
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g.numpass(rp.Exits[j].Y, rp.Exits[j].X)
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}
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}
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}
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// numpass numbers a passageway square and its brethren (passages.c
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// numpass).
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func (g *RogueGame) numpass(y, x int) {
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if x >= NumCols || x < 0 || y >= NumLines || y <= 0 {
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return
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}
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fp := g.Level.FlagsAt(y, x)
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if fp.Has(FPNum) {
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return
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}
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if g.newpnum {
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g.pnum++
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g.newpnum = false
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}
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// check to see if it is a door or secret door, i.e., a new exit, or a
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// numerable type of place
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if ch := g.Level.Char(y, x); ch == Door ||
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(!fp.Has(FReal) && (ch == '|' || ch == '-')) {
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rp := &g.Level.Passages[g.pnum]
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rp.Exits = append(rp.Exits, Coord{Y: y, X: x})
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} else if !fp.Has(FPass) {
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return
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}
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*fp |= PlaceFlags(g.pnum)
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// recurse on the surrounding places
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g.numpass(y+1, x)
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g.numpass(y-1, x)
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g.numpass(y, x+1)
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g.numpass(y, x-1)
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}
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// abs is C abs() for ints.
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func abs(n int) int {
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if n < 0 {
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return -n
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}
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return n
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}
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