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Closes D1. Both T5 zones follow the D1-a/b/c/d pattern: extend the graph so the longest entry→boss walk lands in band, keep the zone's authored topology intact. Also backfills the missing per-node RegionID authoring against dnd_expedition_region.go — the D1-d deferral note flagged this as a prerequisite for T5. dragons_lair (T5): 12 → 47 nodes, longest 38 (band 36-44) abyss_portal (T5): 13 → 51 nodes, longest 39 (band 36-44) Topology preserved per zone: - Dragon's Lair: 4-region authoring (every node carries a valid RegionID); binary-converging fork1 (ash_bridge TRAP / treasure_vault Perception 15) still converges at the R3 wyrmlings_nest elite; capstone fork2 still 3-way (LockNone / CHA 16 / Perception 17 SECRET LootBias 2.5) with each spur preserving its own named capstone node. New R4 infernax_doors MERGE consolidates the long final hall instead of triplicating it. - Abyss Portal: 4-region authoring; three sequential forks preserved (binary / binary / ternary) — fork1 Perception 16, fork2 CON 16 (full STR/DEX/CON/INT/WIS/CHA roster still covered), fork3 capstone 3-way with reality_seam SECRET LootBias 3.0. New R4 belaxath_doors MERGE consolidates the final tear-approach. MinRooms/MaxRooms re-pitched 9-10 → 36-44 so the dice fallback also lands in band for any future graphless variant.
114 lines
3.6 KiB
Go
114 lines
3.6 KiB
Go
package plugin
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import "testing"
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func TestDragonsLairGraph_Registered(t *testing.T) {
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g, ok := zoneGraphRegistry[ZoneDragonsLair]
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if !ok {
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t.Fatal("zoneDragonsLairGraph not registered")
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}
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// Long-expedition D1-e widened this zone from 12 → 47 nodes so the
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// longest entry→boss walk lands in the T5 [36,44] traversal band.
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if len(g.Nodes) != 47 {
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t.Errorf("nodes = %d, want 47", len(g.Nodes))
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}
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}
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func TestDragonsLairGraph_LongestPathInBand(t *testing.T) {
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g := zoneDragonsLairGraph()
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got := graphLongestPath(g)
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if got < 36 || got > 44 {
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t.Errorf("longest path = %d, want in T5 band [36,44]", got)
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}
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}
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// TestDragonsLairGraph_AllNodesHaveRegion confirms D1-e backfilled the
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// missing RegionID authoring per dnd_expedition_region.go: every node
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// carries a non-empty RegionID matching the registry.
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func TestDragonsLairGraph_AllNodesHaveRegion(t *testing.T) {
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g := zoneDragonsLairGraph()
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validRegions := map[string]bool{
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"dragons_lair_kobold_warrens": true,
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"dragons_lair_drake_pens": true,
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"dragons_lair_the_vault": true,
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"dragons_lair_infernax_chamber": true,
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}
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for id, n := range g.Nodes {
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if n.RegionID == "" {
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t.Errorf("node %s has empty RegionID — D1-e requires region authoring on every node", id)
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}
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if !validRegions[n.RegionID] {
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t.Errorf("node %s RegionID = %q, not in dnd_expedition_region.go registry", id, n.RegionID)
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}
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}
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}
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// TestDragonsLairGraph_AllFourRegionsRepresented confirms each authored
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// region has at least one node.
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func TestDragonsLairGraph_AllFourRegionsRepresented(t *testing.T) {
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g := zoneDragonsLairGraph()
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regions := map[string]int{}
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for _, n := range g.Nodes {
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regions[n.RegionID]++
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}
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for _, r := range []string{
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"dragons_lair_kobold_warrens",
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"dragons_lair_drake_pens",
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"dragons_lair_the_vault",
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"dragons_lair_infernax_chamber",
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} {
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if regions[r] == 0 {
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t.Errorf("region %q has no nodes — multi-region invariant broken", r)
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}
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}
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}
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// TestDragonsLairGraph_Fork1Converges verifies the binary mid-fork's
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// two spurs both converge at wyrmlings_nest (R3 boundary).
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func TestDragonsLairGraph_Fork1Converges(t *testing.T) {
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g := zoneDragonsLairGraph()
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for _, spurTail := range []string{"dragons_lair.cinder_walk", "dragons_lair.vault_passage"} {
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outs := g.outgoingEdges(spurTail)
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if len(outs) != 1 || outs[0].To != "dragons_lair.wyrmlings_nest" {
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t.Errorf("%s outs = %+v, want single edge to wyrmlings_nest", spurTail, outs)
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}
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}
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}
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// TestDragonsLairGraph_Fork2Capstone verifies the late fork has 3
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// distinct paths to the boss, each through its own capstone node.
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func TestDragonsLairGraph_Fork2Capstone(t *testing.T) {
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g := zoneDragonsLairGraph()
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outs := g.outgoingEdges("dragons_lair.fork2")
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if len(outs) != 3 {
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t.Fatalf("fork2 outgoing = %d, want 3", len(outs))
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}
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for _, leaf := range []string{
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"dragons_lair.direct_confrontation",
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"dragons_lair.dragon_bargain",
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"dragons_lair.hoard_pillar",
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} {
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if !reachable(g, leaf, "dragons_lair.boss") {
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t.Errorf("%s unreachable to boss", leaf)
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}
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}
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// Locks escalate: open / CHA 16 / Perception 17 (T5 secret bias).
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for _, e := range outs {
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if e.To == "dragons_lair.hidden_passage" {
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if dc := lockDataInt(e.LockData, "dc", 0); dc < 17 {
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t.Errorf("hoard_pillar spur DC = %d, want >= 17 (T5)", dc)
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}
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}
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}
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}
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// TestDragonsLairGraph_LootBiasEscalation verifies the T5 secret has
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// the highest loot bias of any authored zone (≥ 2.5).
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func TestDragonsLairGraph_LootBiasEscalation(t *testing.T) {
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g := zoneDragonsLairGraph()
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hoard := g.Nodes["dragons_lair.hoard_pillar"]
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if hoard.Content.LootBias < 2.5 {
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t.Errorf("hoard_pillar LootBias = %v, want >= 2.5 (T5 secret)", hoard.Content.LootBias)
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}
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}
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