#pragma once
#include "RedstoneSimulator.h"
/// Per-chunk data for the simulator, specified individual chunks to simulate
typedef cCoordWithBlockAndBoolVector cRedstoneSimulatorChunkData;
class cIncrementalRedstoneSimulator :
public cRedstoneSimulator
{
typedef cRedstoneSimulator super;
public:
cIncrementalRedstoneSimulator(cWorld & a_World);
~cIncrementalRedstoneSimulator();
virtual void Simulate(float a_Dt) override { UNUSED(a_Dt);} // not used
virtual void SimulateChunk(float a_Dt, int a_ChunkX, int a_ChunkZ, cChunk * a_Chunk) override;
virtual bool IsAllowedBlock(BLOCKTYPE a_BlockType) override { return IsRedstone(a_BlockType); }
virtual void WakeUp(int a_BlockX, int a_BlockY, int a_BlockZ, cChunk * a_Chunk) override;
enum eRedstoneDirection
{
REDSTONE_NONE = 0,
REDSTONE_X_POS = 0x1,
REDSTONE_X_NEG = 0x2,
REDSTONE_Z_POS = 0x4,
REDSTONE_Z_NEG = 0x8,
};
eRedstoneDirection GetWireDirection(int a_BlockX, int a_BlockY, int a_BlockZ);
private:
#define MAX_POWER_LEVEL 15
struct sPoweredBlocks // Define structure of the directly powered blocks list
{
Vector3i a_BlockPos; // Position of powered block
Vector3i a_SourcePos; // Position of source powering the block at a_BlockPos
unsigned char a_PowerLevel;
};
struct sLinkedPoweredBlocks // Define structure of the indirectly powered blocks list (i.e. repeaters powering through a block to the block at the other side)
{
Vector3i a_BlockPos;
Vector3i a_MiddlePos; // Position of block that is betwixt a source and the destination
Vector3i a_SourcePos;
unsigned char a_PowerLevel;
};
struct sSimulatedPlayerToggleableList // Define structure of the list containing simulate-on-update blocks (such as trapdoors that respond once to a block update, and can be toggled by a player)
{
Vector3i a_RelBlockPos;
bool WasLastStatePowered; // Was the last state powered or not? Determines whether a source update has happened and if I should resimulate
};
struct sRepeatersDelayList // Define structure of list containing repeaters' delay states
{
Vector3i a_RelBlockPos;
unsigned char a_DelayTicks; // For how many ticks should the repeater delay
unsigned char a_ElapsedTicks; // How much of the previous has been elapsed?
bool ShouldPowerOn; // What happens when the delay time is fulfilled?
};
public:
typedef std::vector <sPoweredBlocks> PoweredBlocksList;
typedef std::vector <sLinkedPoweredBlocks> LinkedBlocksList;
typedef std::vector <sSimulatedPlayerToggleableList> SimulatedPlayerToggleableList;
typedef std::vector <sRepeatersDelayList> RepeatersDelayList;
private:
cRedstoneSimulatorChunkData * m_RedstoneSimulatorChunkData;
PoweredBlocksList * m_PoweredBlocks;
LinkedBlocksList * m_LinkedPoweredBlocks;
SimulatedPlayerToggleableList * m_SimulatedPlayerToggleableBlocks;
RepeatersDelayList * m_RepeatersDelayList;
virtual void AddBlock(int a_BlockX, int a_BlockY, int a_BlockZ, cChunk * a_Chunk) override { RedstoneAddBlock(a_BlockX, a_BlockY, a_BlockZ, a_Chunk); }
void RedstoneAddBlock(int a_BlockX, int a_BlockY, int a_BlockZ, cChunk * a_Chunk, cChunk * a_OtherChunk = NULL);
cChunk * m_Chunk;
// We want a_MyState for devices needing a full FastSetBlock (as opposed to meta) because with our simulation model, we cannot keep setting the block if it is already set correctly
// In addition to being non-performant, it would stop the player from actually breaking said device
/* ====== SOURCES ====== */
/** Handles the redstone torch */
void HandleRedstoneTorch(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ, BLOCKTYPE a_MyState);
/** Handles the redstone block */
void HandleRedstoneBlock(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ);
/** Handles levers */
void HandleRedstoneLever(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ);
/** Handles buttons */
void HandleRedstoneButton(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ);
/** Handles daylight sensors */
void HandleDaylightSensor(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ);
/** Handles pressure plates */
void HandlePressurePlate(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ, BLOCKTYPE a_MyType);
/* ==================== */
/* ====== CARRIERS ====== */
/** Handles redstone wire */
void HandleRedstoneWire(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ);
/** Handles repeaters */
void HandleRedstoneRepeater(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ, BLOCKTYPE a_MyState, RepeatersDelayList::iterator a_Itr);
/* ====================== */
/* ====== DEVICES ====== */
/** Handles pistons */
void HandlePiston(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ);
/** Handles dispensers and droppers */
void HandleDropSpenser(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ);
/** Handles TNT (exploding) */
void HandleTNT(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ);
/** Handles redstone lamps */
void HandleRedstoneLamp(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ, BLOCKTYPE a_MyState);
/** Handles doords */
void HandleDoor(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ);
/** Handles command blocks */
void HandleCommandBlock(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ);
/** Handles activator, detector, and powered rails */
void HandleRail(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ, BLOCKTYPE a_MyType);
/** Handles trapdoors */
void HandleTrapdoor(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ);
/** Handles fence gates */
void HandleFenceGate(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ);
/** Handles noteblocks */
void HandleNoteBlock(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ);
/* ===================== */
/* ====== Helper functions ====== */
/** Marks a block as powered */
void SetBlockPowered(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ, int a_RelSourceX, int a_RelSourceY, int a_RelSourceZ, unsigned char a_PowerLevel = MAX_POWER_LEVEL);
/** Marks a block as being powered through another block */
void SetBlockLinkedPowered(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ, int a_RelMiddleX, int a_RelMiddleY, int a_RelMiddleZ, int a_RelSourceX, int a_RelSourceY, int a_RelSourceZ, BLOCKTYPE a_MiddeBlock, unsigned char a_PowerLevel = MAX_POWER_LEVEL);
/** Marks a block as simulated, who should not be simulated further unless their power state changes, to accomodate a player manually toggling the block without triggering the simulator toggling it back */
void SetPlayerToggleableBlockAsSimulated(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ, bool WasLastStatePowered);
/** Marks the second block in a direction as linked powered */
void SetDirectionLinkedPowered(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ, char a_Direction, unsigned char a_PowerLevel = MAX_POWER_LEVEL);
/** Marks all blocks immediately surrounding a coordinate as powered */
void SetAllDirsAsPowered(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ, unsigned char a_PowerLevel = MAX_POWER_LEVEL);
/** Queues a repeater to be powered or unpowered and returns if the m_RepeatersDelayList iterators were invalidated */
bool QueueRepeaterPowerChange(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ, NIBBLETYPE a_Meta, bool ShouldPowerOn);
/** Returns if a coordinate is powered or linked powered */
bool AreCoordsPowered(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ) { return AreCoordsDirectlyPowered(a_RelBlockX, a_RelBlockY, a_RelBlockZ) || AreCoordsLinkedPowered(a_RelBlockX, a_RelBlockY, a_RelBlockZ); }
/** Returns if a coordinate is in the directly powered blocks list */
bool AreCoordsDirectlyPowered(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ);
/** Returns if a coordinate is in the indirectly powered blocks list */
bool AreCoordsLinkedPowered(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ);
/** Returns if a coordinate was marked as simulated (for blocks toggleable by players) */
bool AreCoordsSimulated(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ, bool IsCurrentStatePowered);
/** Returns if a repeater is powered */
bool IsRepeaterPowered(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ, NIBBLETYPE a_Meta);
/** Returns if a repeater is locked */
bool IsRepeaterLocked(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ, NIBBLETYPE a_Meta);
/** Returns if a piston is powered */
bool IsPistonPowered(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ, NIBBLETYPE a_Meta);
/** Returns if a wire is powered
The only diffence between this and a normal AreCoordsPowered is that this function checks for a wire powering another wire */
bool IsWirePowered(int a_RelBlockX, int a_RelBlockY, int a_RelBlockZ, unsigned char & a_PowerLevel);
/** Returns if lever metadata marks it as emitting power */
bool IsLeverOn(NIBBLETYPE a_BlockMeta);
/** Returns if button metadata marks it as emitting power */
bool IsButtonOn(NIBBLETYPE a_BlockMeta) { return IsLeverOn(a_BlockMeta); }
/* ============================== */
/* ====== Misc Functions ====== */
/** Returns if a block is viable to be the MiddleBlock of a SetLinkedPowered operation */
inline static bool IsViableMiddleBlock(BLOCKTYPE Block) { return cBlockInfo::FullyOccupiesVoxel(Block); }
/** Returns if a block is a mechanism (something that accepts power and does something) */
inline static bool IsMechanism(BLOCKTYPE Block)
{
switch (Block)
{
case E_BLOCK_ACTIVATOR_RAIL:
case E_BLOCK_COMMAND_BLOCK:
case E_BLOCK_PISTON:
case E_BLOCK_STICKY_PISTON:
case E_BLOCK_DISPENSER:
case E_BLOCK_DROPPER:
case E_BLOCK_FENCE_GATE:
case E_BLOCK_HOPPER:
case E_BLOCK_NOTE_BLOCK:
case E_BLOCK_TNT:
case E_BLOCK_TRAPDOOR:
case E_BLOCK_REDSTONE_LAMP_OFF:
case E_BLOCK_REDSTONE_LAMP_ON:
case E_BLOCK_WOODEN_DOOR:
case E_BLOCK_IRON_DOOR:
case E_BLOCK_REDSTONE_REPEATER_OFF:
case E_BLOCK_REDSTONE_REPEATER_ON:
case E_BLOCK_POWERED_RAIL:
{
return true;
}
default: return false;
}
}
/** Returns if a block has the potential to output power */
inline static bool IsPotentialSource(BLOCKTYPE Block)
{
switch (Block)
{
case E_BLOCK_DETECTOR_RAIL:
case E_BLOCK_DAYLIGHT_SENSOR:
case E_BLOCK_WOODEN_BUTTON:
case E_BLOCK_STONE_BUTTON:
case E_BLOCK_REDSTONE_WIRE:
case E_BLOCK_REDSTONE_TORCH_ON:
case E_BLOCK_LEVER:
case E_BLOCK_REDSTONE_REPEATER_ON:
case E_BLOCK_BLOCK_OF_REDSTONE:
case E_BLOCK_ACTIVE_COMPARATOR:
case E_BLOCK_HEAVY_WEIGHTED_PRESSURE_PLATE:
case E_BLOCK_LIGHT_WEIGHTED_PRESSURE_PLATE:
case E_BLOCK_STONE_PRESSURE_PLATE:
case E_BLOCK_WOODEN_PRESSURE_PLATE:
{
return true;
}
default: return false;
}
}
/** Returns if a block is any sort of redstone device */
inline static bool IsRedstone(BLOCKTYPE Block)
{
switch (Block)
{
// All redstone devices, please alpha sort
case E_BLOCK_ACTIVATOR_RAIL:
case E_BLOCK_ACTIVE_COMPARATOR:
case E_BLOCK_BLOCK_OF_REDSTONE:
case E_BLOCK_COMMAND_BLOCK:
case E_BLOCK_DETECTOR_RAIL:
case E_BLOCK_DISPENSER:
case E_BLOCK_DAYLIGHT_SENSOR:
case E_BLOCK_DROPPER:
case E_BLOCK_FENCE_GATE:
case E_BLOCK_HEAVY_WEIGHTED_PRESSURE_PLATE:
case E_BLOCK_HOPPER:
case E_BLOCK_INACTIVE_COMPARATOR:
case E_BLOCK_IRON_DOOR:
case E_BLOCK_LEVER:
case E_BLOCK_LIGHT_WEIGHTED_PRESSURE_PLATE:
case E_BLOCK_NOTE_BLOCK:
case E_BLOCK_POWERED_RAIL:
case E_BLOCK_REDSTONE_LAMP_OFF:
case E_BLOCK_REDSTONE_LAMP_ON:
case E_BLOCK_REDSTONE_REPEATER_OFF:
case E_BLOCK_REDSTONE_REPEATER_ON:
case E_BLOCK_REDSTONE_TORCH_OFF:
case E_BLOCK_REDSTONE_TORCH_ON:
case E_BLOCK_REDSTONE_WIRE:
case E_BLOCK_STICKY_PISTON:
case E_BLOCK_STONE_BUTTON:
case E_BLOCK_STONE_PRESSURE_PLATE:
case E_BLOCK_TNT:
case E_BLOCK_TRAPDOOR:
case E_BLOCK_TRIPWIRE_HOOK:
case E_BLOCK_WOODEN_BUTTON:
case E_BLOCK_WOODEN_DOOR:
case E_BLOCK_WOODEN_PRESSURE_PLATE:
case E_BLOCK_PISTON:
{
return true;
}
default: return false;
}
}
};