/* * BUGS: * Shipwreck vault is solved reversed? * Swamp <-> symmetry has non-invisible background * Tutorial sounds don't always play * FEATURES: * Speed up some of the slow things (like swamp) * Determine if the user has entered the seed, and re-randomize it if not * Prevent re-randomization (?) * Clear "Randomized" state on NG (?) * Randomize audio logs -- Hard, seem to be unloaded some times? * Swap sounds in jungle (along with panels) -- maybe impossible * Make orange 7 (all of oranges?) hard. Like big = hard. * Start the game if it isn't running? * SETTINGS: * Speeds of certain things * Speedrunner mode * Increase odds of mountain oranges garbage on other panels */ #include "Memory.h" #include "Randomizer.h" #include "Panels.h" #include #include #include #include template int find(const std::vector &data, T search, size_t startIndex = 0) { for (size_t i=startIndex ; i(i); } std::cout << "Couldn't find " << search << " in data!" << std::endl; exit(-1); } void Randomizer::Randomize() { // Content swaps -- must happen before squarePanels _core.Randomize(upDownPanels, SWAP_LINES); _core.Randomize(leftForwardRightPanels, SWAP_LINES); _core.Randomize(squarePanels, SWAP_LINES); // Individual area modifications RandomizeTutorial(); RandomizeSymmetry(); RandomizeDesert(); RandomizeQuarry(); RandomizeTreehouse(); RandomizeKeep(); RandomizeShadows(); RandomizeTown(); RandomizeMonastery(); RandomizeBunker(); RandomizeJungle(); RandomizeSwamp(); RandomizeMountain(); // RandomizeChallenge(); // RandomizeAudioLogs(); } void Randomizer::RandomizeTutorial() { // Disable tutorial cursor speed modifications (not working?) _core.WritePanelData(0x00295, CURSOR_SPEED_SCALE, {1.0}); _core.WritePanelData(0x0C373, CURSOR_SPEED_SCALE, {1.0}); _core.WritePanelData(0x00293, CURSOR_SPEED_SCALE, {1.0}); _core.WritePanelData(0x002C2, CURSOR_SPEED_SCALE, {1.0}); } void Randomizer::RandomizeSymmetry() { } void Randomizer::RandomizeDesert() { _core.Randomize(desertPanels, SWAP_LINES); // Turn off desert surface 8 _core.WritePanelData(0x09F94, POWER, {0.0, 0.0}); // Turn off desert flood final _core.WritePanelData(0x18076, POWER, {0.0, 0.0}); // Change desert floating target to desert flood final _core.WritePanelData(0x17ECA, TARGET, {0x18077}); } void Randomizer::RandomizeQuarry() { } void Randomizer::RandomizeTreehouse() { // Ensure that whatever pivot panels we have are flagged as "pivotable" int panelFlags = _core.ReadPanelData(0x17DD1, STYLE_FLAGS, 1)[0]; _core.WritePanelData(0x17DD1, STYLE_FLAGS, {panelFlags | 0x8000}); panelFlags = _core.ReadPanelData(0x17CE3, STYLE_FLAGS, 1)[0]; _core.WritePanelData(0x17CE3, STYLE_FLAGS, {panelFlags | 0x8000}); panelFlags = _core.ReadPanelData(0x17DB7, STYLE_FLAGS, 1)[0]; _core.WritePanelData(0x17DB7, STYLE_FLAGS, {panelFlags | 0x8000}); panelFlags = _core.ReadPanelData(0x17E52, STYLE_FLAGS, 1)[0]; _core.WritePanelData(0x17E52, STYLE_FLAGS, {panelFlags | 0x8000}); } void Randomizer::RandomizeKeep() { } void Randomizer::RandomizeShadows() { // Distance-gate shadows laser to prevent sniping through the bars _core.WritePanelData(0x19650, MAX_BROADCAST_DISTANCE, {2.5}); // Change the shadows tutorial cable to only activate avoid _core.WritePanelData(0x319A8, CABLE_TARGET_2, {0}); // Change shadows avoid 8 to power shadows follow _core.WritePanelData(0x1972F, TARGET, {0x1C34C}); std::vector randomOrder(shadowsPanels.size(), 0); std::iota(randomOrder.begin(), randomOrder.end(), 0); _core.RandomizeRange(randomOrder, SWAP_NONE, 0, 8); // Tutorial _core.RandomizeRange(randomOrder, SWAP_NONE, 8, 16); // Avoid _core.RandomizeRange(randomOrder, SWAP_NONE, 16, 21); // Follow _core.ReassignTargets(shadowsPanels, randomOrder); // Turn off original starting panel _core.WritePanelData(shadowsPanels[0], POWER, {0.0f, 0.0f}); // Turn on new starting panel _core.WritePanelData(shadowsPanels[randomOrder[0]], POWER, {1.0f, 1.0f}); } void Randomizer::RandomizeTown() { } void Randomizer::RandomizeMonastery() { std::vector randomOrder(monasteryPanels.size(), 0); std::iota(randomOrder.begin(), randomOrder.end(), 0); _core.RandomizeRange(randomOrder, SWAP_NONE, 3, 9); // Outer 2 & 3, Inner 1-4 _core.ReassignTargets(monasteryPanels, randomOrder); } void Randomizer::RandomizeBunker() { std::vector randomOrder(bunkerPanels.size(), 0); std::iota(randomOrder.begin(), randomOrder.end(), 0); // Randomize Tutorial 2-Advanced Tutorial 4 + Glass 1 // Tutorial 1 cannot be randomized, since no other panel can start on // Glass 1 will become door + glass 1, due to the targetting system _core.RandomizeRange(randomOrder, SWAP_NONE, 1, 10); // Randomize Glass 1-3 into everything after the door/glass 1 const size_t glass1Index = find(randomOrder, 9); _core.RandomizeRange(randomOrder, SWAP_NONE, glass1Index + 1, 12); _core.ReassignTargets(bunkerPanels, randomOrder); } void Randomizer::RandomizeJungle() { std::vector randomOrder(junglePanels.size(), 0); std::iota(randomOrder.begin(), randomOrder.end(), 0); // Waves 1 cannot be randomized, since no other panel can start on _core.RandomizeRange(randomOrder, SWAP_NONE, 1, 7); // Waves 2-7 _core.RandomizeRange(randomOrder, SWAP_NONE, 8, 13); // Pitches 1-6 _core.ReassignTargets(junglePanels, randomOrder); } void Randomizer::RandomizeSwamp() { // Distance-gate swamp snipe 1 to prevent RNG swamp snipe _core.WritePanelData(0x17C05, MAX_BROADCAST_DISTANCE, {15.0}); } void Randomizer::RandomizeMountain() { _core.Randomize(lasers, SWAP_TARGETS); _core.Randomize(pillars, SWAP_LINES | SWAP_BACK_DISTANCE); _core.Randomize(mountainMultipanel, SWAP_LINES); // Read the target of keep front laser, and write it to keep back laser. std::vector keepFrontLaserTarget = _core.ReadPanelData(0x0360E, TARGET, 1); _core.WritePanelData(0x03317, TARGET, keepFrontLaserTarget); } void Randomizer::RandomizeChallenge() { std::vector randomOrder(challengePanels.size(), 0); std::iota(randomOrder.begin(), randomOrder.end(), 0); _core.RandomizeRange(randomOrder, SWAP_NONE, 1, 9); // Easy maze - Triple 2 std::vector triple1Target = _core.ReadPanelData(0x00C80, TARGET, 1); _core.WritePanelData(0x00CA1, TARGET, triple1Target); _core.WritePanelData(0x00CB9, TARGET, triple1Target); std::vector triple2Target = _core.ReadPanelData(0x00C22, TARGET, 1); _core.WritePanelData(0x00C59, TARGET, triple2Target); _core.WritePanelData(0x00C68, TARGET, triple2Target); _core.ReassignTargets(challengePanels, randomOrder); } void Randomizer::RandomizeAudioLogs() { std::vector randomOrder(audiologs.size(), 0); std::iota(randomOrder.begin(), randomOrder.end(), 0); _core.Randomize(randomOrder, SWAP_NONE); _core.ReassignNames(audiologs, randomOrder); }