From 02327bf40bb9f6ef8d5e17fa982da70a3fe93eb4 Mon Sep 17 00:00:00 2001 From: Star Rauchenberger Date: Sat, 21 Aug 2021 16:55:00 -0400 Subject: Implemented tutorialisation stuff --- Source/Randomizer.cpp | 196 +++++++++++++++++++++++++------------------------- 1 file changed, 96 insertions(+), 100 deletions(-) (limited to 'Source/Randomizer.cpp') diff --git a/Source/Randomizer.cpp b/Source/Randomizer.cpp index 72072a8..74166af 100644 --- a/Source/Randomizer.cpp +++ b/Source/Randomizer.cpp @@ -130,10 +130,18 @@ void Randomizer::Randomize() { MEMORY_CATCH(RandomizeChallenge()); // Content swaps -- must happen before squarePanels - MEMORY_CATCH(Randomize(upDownPanels, SWAP::LINES | SWAP::COLORS)); - MEMORY_CATCH(Randomize(leftForwardRightPanels, SWAP::LINES | SWAP::COLORS)); + //MEMORY_CATCH(Randomize(upDownPanels, SWAP::LINES | SWAP::COLORS)); + //MEMORY_CATCH(Randomize(leftForwardRightPanels, SWAP::LINES | SWAP::COLORS)); - MEMORY_CATCH(Randomize(squarePanels, SWAP::LINES | SWAP::COLORS)); + // Tutorial Bend + for (int panel : utmPerspective) { + Tutorialise(panel, 0x00182); + } + // Tutorial Straight + for (int panel : squarePanels) { + Tutorialise(panel, 0x00064); + } + //Randomize(squarePanels, SWAP::LINES | SWAP::COLORS); // Individual area modifications MEMORY_CATCH(RandomizeTutorial()); @@ -171,9 +179,9 @@ void Randomizer::RandomizeLasers() { void Randomizer::PreventSnipes() { // Distance-gate swamp snipe 1 to prevent RNG swamp snipe - _memory->WriteEntityData(0x17C05, MAX_BROADCAST_DISTANCE, {15.0}); + //_memory->WriteEntityData(0x17C05, MAX_BROADCAST_DISTANCE, {15.0}); // Distance-gate shadows laser to prevent sniping through the bars - _memory->WriteEntityData(0x19650, MAX_BROADCAST_DISTANCE, {2.5}); + //_memory->WriteEntityData(0x19650, MAX_BROADCAST_DISTANCE, {2.5}); } // Private methods @@ -186,21 +194,21 @@ void Randomizer::RandomizeTutorial() { } void Randomizer::RandomizeSymmetry() { - std::vector randomOrder(transparent.size(), 0); + /*std::vector randomOrder(transparent.size(), 0); std::iota(randomOrder.begin(), randomOrder.end(), 0); RandomizeRange(randomOrder, SWAP::NONE, 1, 5); - ReassignTargets(transparent, randomOrder); + ReassignTargets(transparent, randomOrder);*/ } void Randomizer::RandomizeDesert() { - Randomize(desertPanels, SWAP::LINES); + //Randomize(desertPanels, SWAP::LINES); // Turn off desert surface 8 - _memory->WriteEntityData(0x09F94, POWER, {0.0, 0.0}); + /*_memory->WriteEntityData(0x09F94, POWER, {0.0, 0.0}); // Turn off desert flood final _memory->WriteEntityData(0x18076, POWER, {0.0, 0.0}); // Change desert floating target to desert flood final - _memory->WriteEntityData(0x17ECA, TARGET, {0x18077}); + _memory->WriteEntityData(0x17ECA, TARGET, {0x18077});*/ } void Randomizer::RandomizeQuarry() { @@ -228,7 +236,7 @@ void Randomizer::RandomizeShadows() { // Change shadows avoid 8 to power shadows follow _memory->WriteEntityData(0x1972F, TARGET, {0x1C34C}); - std::vector randomOrder(shadowsPanels.size(), 0); + /*std::vector randomOrder(shadowsPanels.size(), 0); std::iota(randomOrder.begin(), randomOrder.end(), 0); RandomizeRange(randomOrder, SWAP::NONE, 0, 8); // Tutorial RandomizeRange(randomOrder, SWAP::NONE, 8, 16); // Avoid @@ -237,12 +245,12 @@ void Randomizer::RandomizeShadows() { // Turn off original starting panel _memory->WriteEntityData(shadowsPanels[0], POWER, {0.0f, 0.0f}); // Turn on new starting panel - _memory->WriteEntityData(shadowsPanels[randomOrder[0]], POWER, {1.0f, 1.0f}); + _memory->WriteEntityData(shadowsPanels[randomOrder[0]], POWER, {1.0f, 1.0f});*/ } void Randomizer::RandomizeTown() { // @Hack...? To open the gate at the end - std::vector randomOrder(orchard.size() + 1, 0); + /*std::vector randomOrder(orchard.size() + 1, 0); std::iota(randomOrder.begin(), randomOrder.end(), 0); RandomizeRange(randomOrder, SWAP::NONE, 1, 5); // Ensure that we open the gate before the final puzzle (by swapping) @@ -250,18 +258,18 @@ void Randomizer::RandomizeTown() { int panel4Index = find(randomOrder, 4); randomOrder[std::min(panel3Index, panel4Index)] = 3; randomOrder[std::max(panel3Index, panel4Index)] = 4; - ReassignTargets(orchard, randomOrder); + ReassignTargets(orchard, randomOrder);*/ } void Randomizer::RandomizeMonastery() { - std::vector randomOrder(monasteryPanels.size(), 0); + /*std::vector randomOrder(monasteryPanels.size(), 0); std::iota(randomOrder.begin(), randomOrder.end(), 0); RandomizeRange(randomOrder, SWAP::NONE, 3, 9); // Outer 2 & 3, Inner 1-4 - ReassignTargets(monasteryPanels, randomOrder); + ReassignTargets(monasteryPanels, randomOrder);*/ } void Randomizer::RandomizeBunker() { - std::vector randomOrder(bunkerPanels.size(), 0); + /*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 @@ -270,16 +278,16 @@ void Randomizer::RandomizeBunker() { // Randomize Glass 1-3 into everything after the door/glass 1 const size_t glass1Index = find(randomOrder, 9); RandomizeRange(randomOrder, SWAP::NONE, glass1Index + 1, 12); - ReassignTargets(bunkerPanels, randomOrder); + ReassignTargets(bunkerPanels, randomOrder);*/ } void Randomizer::RandomizeJungle() { - std::vector randomOrder(junglePanels.size(), 0); + /*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 RandomizeRange(randomOrder, SWAP::NONE, 1, 7); // Waves 2-7 RandomizeRange(randomOrder, SWAP::NONE, 8, 13); // Pitches 1-6 - ReassignTargets(junglePanels, randomOrder); + ReassignTargets(junglePanels, randomOrder);*/ // Fix the wall's target to point back to the cable, and the cable to point to the pitches panel. // auto wallTarget = _memory->ReadPanelData(junglePanels[7], TARGET, 1); @@ -292,10 +300,10 @@ void Randomizer::RandomizeSwamp() { void Randomizer::RandomizeMountain() { // Randomize multipanel - Randomize(mountainMultipanel, SWAP::LINES | SWAP::COLORS); + //Randomize(mountainMultipanel, SWAP::LINES | SWAP::COLORS); // Randomize final pillars order - std::vector targets = {pillars[0] + 1}; + /*std::vector targets = {pillars[0] + 1}; for (const int pillar : pillars) { int target = _memory->ReadEntityData(pillar, TARGET, 1)[0]; targets.push_back(target); @@ -312,14 +320,14 @@ void Randomizer::RandomizeMountain() { _memory->WriteEntityData(pillars[5], POWER, {0.0f, 0.0f}); // Turn on new starting panels _memory->WriteEntityData(pillars[randomOrder[0]], POWER, {1.0f, 1.0f}); - _memory->WriteEntityData(pillars[randomOrder[5]], POWER, {1.0f, 1.0f}); + _memory->WriteEntityData(pillars[randomOrder[5]], POWER, {1.0f, 1.0f});*/ } void Randomizer::RandomizeChallenge() { - ChallengeRandomizer cr(_memory, Random::RandInt(1, 0x7FFFFFFF)); // 0 will trigger an "RNG not initialized" block + /*ChallengeRandomizer cr(_memory, Random::RandInt(1, 0x7FFFFFFF)); // 0 will trigger an "RNG not initialized" block for (int panel : challengePanels) { _memory->WriteEntityData(panel, POWER_OFF_ON_FAIL, {0}); - } + }*/ } void Randomizer::RandomizeAudioLogs() { @@ -338,92 +346,80 @@ void Randomizer::RandomizeRange(std::vector &panels, int flags, size_t star if (panels.size() == 0) return; if (startIndex >= endIndex) return; if (endIndex >= panels.size()) endIndex = static_cast(panels.size()); - for (size_t i = endIndex-1; i > startIndex; i--) { - const int target = Random::RandInt(static_cast(startIndex), static_cast(i)); + for (size_t i = 0; i < panels.size(); i++) { + /*const int target = Random::RandInt(static_cast(startIndex), static_cast(i)); if (i != target) { // std::cout << "Swapping panels " << std::hex << panels[i] << " and " << std::hex << panels[target] << std::endl; SwapPanels(panels[i], panels[target], flags); - std::swap(panels[i], panels[target]); // Panel indices in the array - } + //std::swap(panels[i], panels[target]); // Panel indices in the array + }*/ + } } -void Randomizer::SwapPanels(int panel1, int panel2, int flags) { - std::map offsets; - - if (flags & SWAP::TARGETS) { - offsets[TARGET] = sizeof(int); - } - if (flags & SWAP::AUDIO_NAMES) { - offsets[AUDIO_LOG_NAME] = sizeof(void*); - } - if (flags & SWAP::COLORS) { - offsets[PATH_COLOR] = 16; - offsets[REFLECTION_PATH_COLOR] = 16; - offsets[DOT_COLOR] = 16; - offsets[ACTIVE_COLOR] = 16; - offsets[BACKGROUND_REGION_COLOR] = 12; // Not copying alpha to preserve transparency. - offsets[SUCCESS_COLOR_A] = 16; - offsets[SUCCESS_COLOR_B] = 16; - offsets[STROBE_COLOR_A] = 16; - offsets[STROBE_COLOR_B] = 16; - offsets[ERROR_COLOR] = 16; - offsets[PATTERN_POINT_COLOR] = 16; - offsets[PATTERN_POINT_COLOR_A] = 16; - offsets[PATTERN_POINT_COLOR_B] = 16; - offsets[SYMBOL_A] = 16; - offsets[SYMBOL_B] = 16; - offsets[SYMBOL_C] = 16; - offsets[SYMBOL_D] = 16; - offsets[SYMBOL_E] = 16; - offsets[PUSH_SYMBOL_COLORS] = sizeof(int); - offsets[OUTER_BACKGROUND] = 16; - offsets[OUTER_BACKGROUND_MODE] = sizeof(int); - // These two control the "burn intensity", but I can't swap out burn marks in new ver, so they should probably stay tied to each frame. - // offsets[SPECULAR_ADD] = sizeof(float); - // offsets[SPECULAR_POWER] = sizeof(int); - offsets[NUM_COLORED_REGIONS] = sizeof(int); - offsets[COLORED_REGIONS] = sizeof(void*); - } - if (flags & SWAP::LINES) { - offsets[TRACED_EDGES] = 16; - offsets[AUDIO_PREFIX] = sizeof(void*); +void Randomizer::Tutorialise(int panel1, int tutorialStraight) { + //const int tutorialStraight = 0x00064; + + _memory->CopyEntityData(tutorialStraight, panel1, PATH_COLOR, 16); + _memory->CopyEntityData(tutorialStraight, panel1, REFLECTION_PATH_COLOR, 16); + _memory->CopyEntityData(tutorialStraight, panel1, DOT_COLOR, 16); + _memory->CopyEntityData(tutorialStraight, panel1, ACTIVE_COLOR, 16); + _memory->CopyEntityData(tutorialStraight, panel1, BACKGROUND_REGION_COLOR, 12); + _memory->CopyEntityData(tutorialStraight, panel1, SUCCESS_COLOR_A, 16); + _memory->CopyEntityData(tutorialStraight, panel1, SUCCESS_COLOR_B, 16); + _memory->CopyEntityData(tutorialStraight, panel1, STROBE_COLOR_A, 16); + _memory->CopyEntityData(tutorialStraight, panel1, STROBE_COLOR_B, 16); + _memory->CopyEntityData(tutorialStraight, panel1, ERROR_COLOR, 16); + _memory->CopyEntityData(tutorialStraight, panel1, PATTERN_POINT_COLOR, 16); + _memory->CopyEntityData(tutorialStraight, panel1, PATTERN_POINT_COLOR_A, 16); + _memory->CopyEntityData(tutorialStraight, panel1, PATTERN_POINT_COLOR_B, 16); + _memory->CopyEntityData(tutorialStraight, panel1, SYMBOL_A, 16); + _memory->CopyEntityData(tutorialStraight, panel1, SYMBOL_B, 16); + _memory->CopyEntityData(tutorialStraight, panel1, SYMBOL_C, 16); + _memory->CopyEntityData(tutorialStraight, panel1, SYMBOL_D, 16); + _memory->CopyEntityData(tutorialStraight, panel1, SYMBOL_E, 16); + _memory->CopyEntityData(tutorialStraight, panel1, PUSH_SYMBOL_COLORS, sizeof(int)); + _memory->CopyEntityData(tutorialStraight, panel1, OUTER_BACKGROUND, 16); + _memory->CopyEntityData(tutorialStraight, panel1, OUTER_BACKGROUND_MODE, sizeof(int)); + _memory->CopyEntityData(tutorialStraight, panel1, NUM_COLORED_REGIONS, sizeof(int)); + _memory->CopyArrayDynamicSize(tutorialStraight, panel1, COLORED_REGIONS, NUM_COLORED_REGIONS); + _memory->CopyEntityData(tutorialStraight, panel1, TRACED_EDGES, 16); + _memory->CopyEntityData(tutorialStraight, panel1, PATH_WIDTH_SCALE, sizeof(float)); + _memory->CopyEntityData(tutorialStraight, panel1, STARTPOINT_SCALE, sizeof(float)); + _memory->CopyEntityData(tutorialStraight, panel1, NUM_DOTS, sizeof(int)); + _memory->CopyEntityData(tutorialStraight, panel1, NUM_CONNECTIONS, sizeof(int)); + _memory->CopyArray(tutorialStraight, panel1, DOT_POSITIONS, _memory->ReadEntityData(tutorialStraight, NUM_DOTS, sizeof(int))[0]*2); + _memory->CopyArrayDynamicSize(tutorialStraight, panel1, DOT_FLAGS, NUM_DOTS); + _memory->CopyArrayDynamicSize(tutorialStraight, panel1, DOT_CONNECTION_A, NUM_CONNECTIONS); + _memory->CopyArrayDynamicSize(tutorialStraight, panel1, DOT_CONNECTION_B, NUM_CONNECTIONS); + _memory->CopyEntityData(tutorialStraight, panel1, NUM_DECORATIONS, sizeof(int)); + _memory->CopyArrayDynamicSize(tutorialStraight, panel1, DECORATIONS, NUM_DECORATIONS); + _memory->CopyArrayDynamicSize(tutorialStraight, panel1, DECORATION_FLAGS, NUM_DECORATIONS); + _memory->CopyArrayDynamicSize(tutorialStraight, panel1, DECORATION_COLORS, NUM_DECORATIONS); + //_memory->CopyArrayDynamicSize(tutorialStraight, panel1, REFLECTION_DATA, NUM_DOTS); + _memory->WritePanelData(panel1, REFLECTION_DATA, { 0 }); + _memory->CopyEntityData(tutorialStraight, panel1, SEQUENCE_LEN, sizeof(int)); + _memory->CopyArrayDynamicSize(tutorialStraight, panel1, SEQUENCE, SEQUENCE_LEN); + _memory->CopyEntityData(tutorialStraight, panel1, DOT_SEQUENCE_LEN, sizeof(int)); + _memory->CopyArrayDynamicSize(tutorialStraight, panel1, DOT_SEQUENCE, DOT_SEQUENCE_LEN); + _memory->CopyEntityData(tutorialStraight, panel1, DOT_SEQUENCE_LEN_REFLECTION, sizeof(int)); + _memory->CopyArrayDynamicSize(tutorialStraight, panel1, DOT_SEQUENCE_REFLECTION, DOT_SEQUENCE_LEN_REFLECTION); + _memory->CopyEntityData(tutorialStraight, panel1, GRID_SIZE_X, sizeof(int)); + _memory->CopyEntityData(tutorialStraight, panel1, GRID_SIZE_Y, sizeof(int)); + _memory->CopyEntityData(tutorialStraight, panel1, STYLE_FLAGS, sizeof(int)); + + + + + //arrays.push_back(AUDIO_PREFIX); // offsets[IS_CYLINDER] = sizeof(int); // offsets[CYLINDER_Z0] = sizeof(float); // offsets[CYLINDER_Z1] = sizeof(float); // offsets[CYLINDER_RADIUS] = sizeof(float); - offsets[PATH_WIDTH_SCALE] = sizeof(float); - offsets[STARTPOINT_SCALE] = sizeof(float); - offsets[NUM_DOTS] = sizeof(int); - offsets[NUM_CONNECTIONS] = sizeof(int); - offsets[DOT_POSITIONS] = sizeof(void*); - offsets[DOT_FLAGS] = sizeof(void*); - offsets[DOT_CONNECTION_A] = sizeof(void*); - offsets[DOT_CONNECTION_B] = sizeof(void*); - offsets[DECORATIONS] = sizeof(void*); - offsets[DECORATION_FLAGS] = sizeof(void*); - offsets[DECORATION_COLORS] = sizeof(void*); - offsets[NUM_DECORATIONS] = sizeof(int); - offsets[REFLECTION_DATA] = sizeof(void*); - offsets[GRID_SIZE_X] = sizeof(int); - offsets[GRID_SIZE_Y] = sizeof(int); - offsets[STYLE_FLAGS] = sizeof(int); - offsets[SEQUENCE_LEN] = sizeof(int); - offsets[SEQUENCE] = sizeof(void*); - offsets[DOT_SEQUENCE_LEN] = sizeof(int); - offsets[DOT_SEQUENCE] = sizeof(void*); - offsets[DOT_SEQUENCE_LEN_REFLECTION] = sizeof(int); - offsets[DOT_SEQUENCE_REFLECTION] = sizeof(void*); - offsets[PANEL_TARGET] = sizeof(void*); - offsets[SPECULAR_TEXTURE] = sizeof(void*); - } - for (auto const& [offset, size] : offsets) { - std::vector panel1data = _memory->ReadEntityData(panel1, offset, size); - std::vector panel2data = _memory->ReadEntityData(panel2, offset, size); - _memory->WriteEntityData(panel2, offset, panel1data); - _memory->WriteEntityData(panel1, offset, panel2data); - } + //arrays.push_back(PANEL_TARGET); + //arrays.push_back(SPECULAR_TEXTURE); + } void Randomizer::ReassignTargets(const std::vector& panels, const std::vector& order, std::vector targets) { -- cgit 1.4.1