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Kelsidavis-WoWee/tools/editor/cli_pet_talents_catalog.cpp
Kelsi 81070c470c feat(editor): add WPTT (Pet Talent Tree) — 107th open format 
Novel replacement for the PetTalent.dbc + PetTalentTab.dbc
pair that defined the Hunter pet talent system added in
WotLK. Each entry is one talent in one of the three pet
trees (Cunning/utility, Ferocity/DPS, Tenacity/tank),
placed at a (tier, column) grid position with a per-rank
spell ID array, an optional prerequisite-talent edge,
and a legacy loyalty-level requirement carried over
from Vanilla pet happiness mechanics.

Combines three patterns previously seen separately into
one format: variable-length payload (spellIdsByRank[]
mirroring WCMR's members[]), graph edge
(prerequisiteTalentId mirroring WBAB's previousRankId),
and grid placement (tier+column — first format with
explicit 2D layout coordinates the renderer can use to
draw the talent tree UI).

Three preset emitters one per tree: makeFerocity (6
talents tiers 0-3 with prereq chain CobraReflexes ->
SpikedCollar -> SpidersBite plus parallel Serpent ->
Boars -> Rabid), makeCunning (5 talents Dash/Owls/
Recovery/Cornered/Phoenix), makeTenacity (5 talents
Charge/Stamina/Stomp/Taunt/LastStand).

Validator's most novel checks combine grid + graph
constraints unique to talent-tree formats:
- (tree, tier, column) cell uniqueness — two talents in
  the same cell would render on top of each other
- prereq must resolve to an existing talent IN THE SAME
  TREE (cross-tree prereqs are illegal)
- prereq tier must be STRICTLY LESS than this tier
  (talents only depend on earlier tiers, no
  same-tier or backward dependencies)
- spellIdsByRank.size() must EQUAL maxRank exactly
- no zero spell IDs within the rank array
Plus the standard: id+name required, treeKind 0..2,
tier 0..6 (7 tiers), column 0..2 (3 columns), maxRank
1..5, no duplicate talentIds, no self-referencing
prereqs.

Format count 106 -> 107. CLI flag count 1170 -> 1175.
2026-05-10 01:49:20 -07:00

345 lines
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#include "cli_pet_talents_catalog.hpp"
#include "cli_arg_parse.hpp"
#include "cli_box_emitter.hpp"
#include "pipeline/wowee_pet_talents.hpp"
#include <nlohmann/json.hpp>
#include <cstdint>
#include <cstdio>
#include <cstring>
#include <fstream>
#include <set>
#include <string>
#include <vector>
namespace wowee {
namespace editor {
namespace cli {
namespace {
std::string stripWpttExt(std::string base) {
stripExt(base, ".wptt");
return base;
}
const char* treeKindName(uint8_t k) {
using P = wowee::pipeline::WoweePetTalents;
switch (k) {
case P::Cunning: return "cunning";
case P::Ferocity: return "ferocity";
case P::Tenacity: return "tenacity";
default: return "unknown";
}
}
bool saveOrError(const wowee::pipeline::WoweePetTalents& c,
const std::string& base, const char* cmd) {
if (!wowee::pipeline::WoweePetTalentsLoader::save(c, base)) {
std::fprintf(stderr, "%s: failed to save %s.wptt\n",
cmd, base.c_str());
return false;
}
return true;
}
void printGenSummary(const wowee::pipeline::WoweePetTalents& c,
const std::string& base) {
size_t totalSpells = 0;
for (const auto& e : c.entries)
totalSpells += e.spellIdsByRank.size();
std::printf("Wrote %s.wptt\n", base.c_str());
std::printf(" catalog : %s\n", c.name.c_str());
std::printf(" talents : %zu (%zu rank-spells total)\n",
c.entries.size(), totalSpells);
}
int handleGenFerocity(int& i, int argc, char** argv) {
std::string base = argv[++i];
std::string name = "FerocityPetTree";
if (parseOptArg(i, argc, argv)) name = argv[++i];
base = stripWpttExt(base);
auto c = wowee::pipeline::WoweePetTalentsLoader::makeFerocity(name);
if (!saveOrError(c, base, "gen-ptt")) return 1;
printGenSummary(c, base);
return 0;
}
int handleGenCunning(int& i, int argc, char** argv) {
std::string base = argv[++i];
std::string name = "CunningPetTree";
if (parseOptArg(i, argc, argv)) name = argv[++i];
base = stripWpttExt(base);
auto c = wowee::pipeline::WoweePetTalentsLoader::makeCunning(name);
if (!saveOrError(c, base, "gen-ptt-cunning")) return 1;
printGenSummary(c, base);
return 0;
}
int handleGenTenacity(int& i, int argc, char** argv) {
std::string base = argv[++i];
std::string name = "TenacityPetTree";
if (parseOptArg(i, argc, argv)) name = argv[++i];
base = stripWpttExt(base);
auto c = wowee::pipeline::WoweePetTalentsLoader::makeTenacity(name);
if (!saveOrError(c, base, "gen-ptt-tenacity")) return 1;
printGenSummary(c, base);
return 0;
}
int handleInfo(int& i, int argc, char** argv) {
std::string base = argv[++i];
bool jsonOut = consumeJsonFlag(i, argc, argv);
base = stripWpttExt(base);
if (!wowee::pipeline::WoweePetTalentsLoader::exists(base)) {
std::fprintf(stderr, "WPTT not found: %s.wptt\n", base.c_str());
return 1;
}
auto c = wowee::pipeline::WoweePetTalentsLoader::load(base);
if (jsonOut) {
nlohmann::json j;
j["wptt"] = base + ".wptt";
j["name"] = c.name;
j["count"] = c.entries.size();
nlohmann::json arr = nlohmann::json::array();
for (const auto& e : c.entries) {
arr.push_back({
{"talentId", e.talentId},
{"name", e.name},
{"description", e.description},
{"treeKind", e.treeKind},
{"treeKindName", treeKindName(e.treeKind)},
{"tier", e.tier},
{"column", e.column},
{"maxRank", e.maxRank},
{"prerequisiteTalentId", e.prerequisiteTalentId},
{"requiredLoyalty", e.requiredLoyalty},
{"iconColorRGBA", e.iconColorRGBA},
{"spellIdsByRank", e.spellIdsByRank},
});
}
j["entries"] = arr;
std::printf("%s\n", j.dump(2).c_str());
return 0;
}
std::printf("WPTT: %s.wptt\n", base.c_str());
std::printf(" catalog : %s\n", c.name.c_str());
std::printf(" talents : %zu\n", c.entries.size());
if (c.entries.empty()) return 0;
std::printf(" id tree tier col ranks prereq loyalty name\n");
for (const auto& e : c.entries) {
std::printf(" %4u %-8s %2u %2u %2u %5u %3u %s\n",
e.talentId, treeKindName(e.treeKind),
e.tier, e.column, e.maxRank,
e.prerequisiteTalentId,
e.requiredLoyalty, e.name.c_str());
if (!e.spellIdsByRank.empty()) {
std::printf(" rank-spells:");
for (uint32_t s : e.spellIdsByRank)
std::printf(" %u", s);
std::printf("\n");
}
}
return 0;
}
int handleValidate(int& i, int argc, char** argv) {
std::string base = argv[++i];
bool jsonOut = consumeJsonFlag(i, argc, argv);
base = stripWpttExt(base);
if (!wowee::pipeline::WoweePetTalentsLoader::exists(base)) {
std::fprintf(stderr,
"validate-wptt: WPTT not found: %s.wptt\n",
base.c_str());
return 1;
}
auto c = wowee::pipeline::WoweePetTalentsLoader::load(base);
std::vector<std::string> errors;
std::vector<std::string> warnings;
if (c.entries.empty()) {
warnings.push_back("catalog has zero entries");
}
std::set<uint32_t> idsSeen;
// Track (tree, tier, column) cell occupancy — two
// talents in the same cell would render on top of
// each other.
std::set<uint32_t> cellsSeen;
auto cellKey = [](uint8_t tree, uint8_t tier, uint8_t col) {
return static_cast<uint32_t>(tree) << 16 |
static_cast<uint32_t>(tier) << 8 |
static_cast<uint32_t>(col);
};
for (size_t k = 0; k < c.entries.size(); ++k) {
const auto& e = c.entries[k];
std::string ctx = "entry " + std::to_string(k) +
" (id=" + std::to_string(e.talentId);
if (!e.name.empty()) ctx += " " + e.name;
ctx += ")";
if (e.talentId == 0)
errors.push_back(ctx + ": talentId is 0");
if (e.name.empty())
errors.push_back(ctx + ": name is empty");
if (e.treeKind > 2) {
errors.push_back(ctx + ": treeKind " +
std::to_string(e.treeKind) +
" out of range (must be 0..2)");
}
if (e.tier > 6) {
errors.push_back(ctx + ": tier " +
std::to_string(e.tier) +
" > 6 — pet trees have 7 tiers (0-6)");
}
if (e.column > 2) {
errors.push_back(ctx + ": column " +
std::to_string(e.column) +
" > 2 — pet trees have 3 columns (0-2)");
}
if (e.maxRank == 0 || e.maxRank > 5) {
errors.push_back(ctx + ": maxRank " +
std::to_string(e.maxRank) +
" out of range (must be 1..5)");
}
// spellIdsByRank size must equal maxRank.
if (e.spellIdsByRank.size() !=
static_cast<size_t>(e.maxRank)) {
errors.push_back(ctx +
": spellIdsByRank.size() = " +
std::to_string(e.spellIdsByRank.size()) +
" does not match maxRank " +
std::to_string(e.maxRank));
}
// No spell ID may be 0 within the array.
for (size_t s = 0; s < e.spellIdsByRank.size(); ++s) {
if (e.spellIdsByRank[s] == 0) {
errors.push_back(ctx +
": spellIdsByRank[" + std::to_string(s) +
"] = 0 (rank " + std::to_string(s + 1) +
" has no spell)");
}
}
// Self-reference check for prereq.
if (e.prerequisiteTalentId == e.talentId) {
errors.push_back(ctx +
": prerequisiteTalentId equals talentId — "
"would create a 1-element prereq cycle");
}
// Cell occupancy uniqueness.
if (e.tier <= 6 && e.column <= 2 && e.treeKind <= 2) {
uint32_t key = cellKey(e.treeKind, e.tier, e.column);
if (!cellsSeen.insert(key).second) {
errors.push_back(ctx +
": cell (tree=" +
std::string(treeKindName(e.treeKind)) +
", tier=" + std::to_string(e.tier) +
", column=" + std::to_string(e.column) +
") already occupied by another talent");
}
}
if (!idsSeen.insert(e.talentId).second) {
errors.push_back(ctx + ": duplicate talentId");
}
}
// Cross-entry: prereq must resolve to an existing
// talent in the same tree (you can't prereq a Ferocity
// talent from a Cunning slot).
auto findEntry = [&](uint32_t id) -> const
wowee::pipeline::WoweePetTalents::Entry* {
for (const auto& e : c.entries) {
if (e.talentId == id) return &e;
}
return nullptr;
};
for (const auto& e : c.entries) {
if (e.prerequisiteTalentId == 0) continue;
auto* pre = findEntry(e.prerequisiteTalentId);
if (!pre) {
errors.push_back("entry id=" +
std::to_string(e.talentId) +
" (" + e.name + "): prerequisiteTalentId=" +
std::to_string(e.prerequisiteTalentId) +
" references missing entry");
continue;
}
if (pre->treeKind != e.treeKind) {
errors.push_back("entry id=" +
std::to_string(e.talentId) +
" (" + e.name + "): prereq " +
std::to_string(e.prerequisiteTalentId) +
" (" + pre->name + ") is in tree '" +
std::string(treeKindName(pre->treeKind)) +
"' but this talent is in tree '" +
std::string(treeKindName(e.treeKind)) +
"' — prereq must be in same tree");
}
if (pre->tier >= e.tier) {
errors.push_back("entry id=" +
std::to_string(e.talentId) +
" (" + e.name + "): prereq tier " +
std::to_string(pre->tier) +
" >= this talent's tier " +
std::to_string(e.tier) +
" — prereqs must be in earlier tiers");
}
}
bool ok = errors.empty();
if (jsonOut) {
nlohmann::json j;
j["wptt"] = base + ".wptt";
j["ok"] = ok;
j["errors"] = errors;
j["warnings"] = warnings;
std::printf("%s\n", j.dump(2).c_str());
return ok ? 0 : 1;
}
std::printf("validate-wptt: %s.wptt\n", base.c_str());
if (ok && warnings.empty()) {
size_t totalSpells = 0;
for (const auto& e : c.entries)
totalSpells += e.spellIdsByRank.size();
std::printf(" OK — %zu talents, %zu rank-spells, "
"all talentIds + cells unique, prereqs "
"valid + earlier-tier\n",
c.entries.size(), totalSpells);
return 0;
}
if (!warnings.empty()) {
std::printf(" warnings (%zu):\n", warnings.size());
for (const auto& w : warnings)
std::printf(" - %s\n", w.c_str());
}
if (!errors.empty()) {
std::printf(" ERRORS (%zu):\n", errors.size());
for (const auto& e : errors)
std::printf(" - %s\n", e.c_str());
}
return ok ? 0 : 1;
}
} // namespace
bool handlePetTalentsCatalog(int& i, int argc, char** argv,
int& outRc) {
if (std::strcmp(argv[i], "--gen-ptt") == 0 && i + 1 < argc) {
outRc = handleGenFerocity(i, argc, argv); return true;
}
if (std::strcmp(argv[i], "--gen-ptt-cunning") == 0 &&
i + 1 < argc) {
outRc = handleGenCunning(i, argc, argv); return true;
}
if (std::strcmp(argv[i], "--gen-ptt-tenacity") == 0 &&
i + 1 < argc) {
outRc = handleGenTenacity(i, argc, argv); return true;
}
if (std::strcmp(argv[i], "--info-wptt") == 0 && i + 1 < argc) {
outRc = handleInfo(i, argc, argv); return true;
}
if (std::strcmp(argv[i], "--validate-wptt") == 0 && i + 1 < argc) {
outRc = handleValidate(i, argc, argv); return true;
}
return false;
}
} // namespace cli
} // namespace editor
} // namespace wowee
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