#include "pch.h" #include "TBall.h" #include "fullscrn.h" #include "loader.h" #include "maths.h" #include "pb.h" #include "proj.h" #include "render.h" #include "TPinballTable.h" #include "TTableLayer.h" TBall::TBall(TPinballTable* table) : TPinballComponent(table, -1, false) { visualStruct visual{}; char ballGroupName[10]{"ball"}; TimeNow = 0.0; RayMaxDistance = 0.0; ActiveFlag = 1; CollisionComp = nullptr; EdgeCollisionCount = 0; TimeDelta = 0.0; CollisionMask = 1; CollisionFlag = 0; Speed = 0.0; Direction.Y = 0.0; Direction.X = 0.0; Position.X = 0.0; Position.Y = 0.0; HasGroupFlag = false; ListBitmap = new std::vector(); /*Full tilt: ball is ballN, where N[0,2] resolution*/ auto groupIndex = loader::query_handle(ballGroupName); if (groupIndex < 0) { ballGroupName[4] = '0' + fullscrn::GetResolution(); groupIndex = loader::query_handle(ballGroupName); } Radius = *loader::query_float_attribute(groupIndex, 0, 500); auto visualCount = loader::query_visual_states(groupIndex); for (auto index = 0; index < visualCount; ++index) { loader::query_visual(groupIndex, index, &visual); ListBitmap->push_back(visual.Bitmap); auto visVec = reinterpret_cast(loader::query_float_attribute(groupIndex, index, 501)); auto zDepth = proj::z_distance(*visVec); VisualZArray[index] = zDepth; } RenderSprite = new render_sprite(VisualTypes::Ball, nullptr, nullptr, 0, 0, nullptr); PinballTable->CollisionCompOffset = Radius; Position.Z = Radius; GroupIndex = groupIndex; } void TBall::Repaint() { if (CollisionFlag) { Position.Z = CollisionOffset.X * Position.X + CollisionOffset.Y * Position.Y + Radius + CollisionOffset.Z; } auto pos2D = proj::xform_to_2d(Position); auto zDepth = proj::z_distance(Position); auto index = 0u; for (; index < ListBitmap->size() - 1; ++index) { if (VisualZArray[index] <= zDepth) break; } SpriteSetBall(index, pos2D, zDepth); } void TBall::not_again(TEdgeSegment* edge) { if (EdgeCollisionCount < 16) { Collisions[EdgeCollisionCount] = edge; ++EdgeCollisionCount; } else { for (int i = 0; i < 8; i++) Collisions[i] = Collisions[i + 8]; Collisions[8] = edge; EdgeCollisionCount = 9; } EdgeCollisionResetFlag = true; } bool TBall::already_hit(TEdgeSegment* edge) { for (int i = 0; i < EdgeCollisionCount; i++) { if (Collisions[i] == edge) return true; } return false; } int TBall::Message(MessageCode code, float value) { if (code == MessageCode::Reset) { SpriteSetBall(-1, { 0,0 }, 0.0f); Position.X = 0.0; CollisionComp = nullptr; Position.Y = 0.0; ActiveFlag = 0; CollisionFlag = 0; CollisionMask = 1; Direction.Y = 0.0; Position.Z = Radius; Direction.X = 0.0; Speed = 0.0; RayMaxDistance = 0.0; } return 0; } void TBall::throw_ball(vector3* direction, float angleMult, float speedMult1, float speedMult2) { CollisionComp = nullptr; Direction = *direction; float rnd = RandFloat(); float angle = (1.0f - (rnd + rnd)) * angleMult; maths::RotateVector(Direction, angle); rnd = RandFloat(); Speed = (1.0f - (rnd + rnd)) * (speedMult1 * speedMult2) + speedMult1; } vector2 TBall::get_coordinates() { return TTableLayer::edge_manager->NormalizeBox(Position); } void TBall::Disable() { ActiveFlag = false; AsEdgeCollisionFlag = true; SpriteSet(-1); }