/* ** m_random.cpp ** Random number generators ** **--------------------------------------------------------------------------- ** Copyright 2002-2009 Randy Heit ** All rights reserved. ** ** Redistribution and use in source and binary forms, with or without ** modification, are permitted provided that the following conditions ** are met: ** ** 1. Redistributions of source code must retain the above copyright ** notice, this list of conditions and the following disclaimer. ** 2. Redistributions in binary form must reproduce the above copyright ** notice, this list of conditions and the following disclaimer in the ** documentation and/or other materials provided with the distribution. ** 3. The name of the author may not be used to endorse or promote products ** derived from this software without specific prior written permission. ** ** THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR ** IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES ** OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. ** IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, ** INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT ** NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, ** DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY ** THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ** (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF ** THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. **--------------------------------------------------------------------------- ** ** This file employs the techniques for improving demo sync and backward ** compatibility that Lee Killough introduced with BOOM. However, none of ** the actual code he wrote is left. In contrast to BOOM, each RNG source ** in ZDoom is implemented as a separate class instance that provides an ** interface to the high-quality Mersenne Twister. See ** . ** ** As Killough's description from m_random.h is still mostly relevant, ** here it is: ** killough 2/16/98: ** ** Make every random number generator local to each control-equivalent block. ** Critical for demo sync. The random number generators are made local to ** reduce the chances of sync problems. In Doom, if a single random number ** generator call was off, it would mess up all random number generators. ** This reduces the chances of it happening by making each RNG local to a ** control flow block. ** ** Notes to developers: if you want to reduce your demo sync hassles, follow ** this rule: for each call to P_Random you add, add a new class to the enum ** type below for each block of code which calls P_Random. If two calls to ** P_Random are not in "control-equivalent blocks", i.e. there are any cases ** where one is executed, and the other is not, put them in separate classes. */ // HEADER FILES ------------------------------------------------------------ #include #include "doomstat.h" #include "m_random.h" #include "serializer.h" #include "b_bot.h" #include "m_crc32.h" #include "c_dispatch.h" // MACROS ------------------------------------------------------------------ #define RAND_ID MAKE_ID('r','a','N','d') // TYPES ------------------------------------------------------------------- // EXTERNAL FUNCTION PROTOTYPES -------------------------------------------- // PUBLIC FUNCTION PROTOTYPES ---------------------------------------------- // PRIVATE FUNCTION PROTOTYPES --------------------------------------------- // EXTERNAL DATA DECLARATIONS ---------------------------------------------- extern FRandom pr_spawnmobj; extern FRandom pr_acs; extern FRandom pr_chase; extern FRandom pr_exrandom; extern FRandom pr_damagemobj; // PUBLIC DATA DEFINITIONS ------------------------------------------------- FRandom M_Random; // Global seed. This is modified predictably to initialize every RNG. uint32_t rngseed; // Static RNG marker. This is only used when the RNG is set for each new game. uint32_t staticrngseed; bool use_staticrng; // Allows checking or staticly setting the global seed. CCMD(rngseed) { if (argv.argc() == 1) { Printf("Usage: rngseed get|set|clear\n"); return; } if (stricmp(argv[1], "get") == 0) { Printf("rngseed is %d\n", rngseed); } else if (stricmp(argv[1], "set") == 0) { if (argv.argc() == 2) { Printf("You need to specify a value to set\n"); } else { staticrngseed = atoi(argv[2]); use_staticrng = true; Printf("Static rngseed %d will be set for next game\n", staticrngseed); } } else if (stricmp(argv[1], "clear") == 0) { use_staticrng = false; Printf("Static rngseed cleared\n"); } } // PRIVATE DATA DEFINITIONS ------------------------------------------------ FRandom *FRandom::RNGList; static TDeletingArray NewRNGs; // CODE -------------------------------------------------------------------- //========================================================================== // // FRandom - Nameless constructor // // Constructing an RNG in this way means it won't be stored in savegames. // //========================================================================== FRandom::FRandom () : NameCRC (0) { #ifndef NDEBUG Name = NULL; initialized = false; #endif Next = RNGList; RNGList = this; Init(0); } //========================================================================== // // FRandom - Named constructor // // This is the standard way to construct RNGs. // //========================================================================== FRandom::FRandom (const char *name) { NameCRC = CalcCRC32 ((const uint8_t *)name, (unsigned int)strlen (name)); #ifndef NDEBUG initialized = false; Name = name; // A CRC of 0 is reserved for nameless RNGs that don't get stored // in savegames. The chance is very low that you would get a CRC of 0, // but it's still possible. assert (NameCRC != 0); #endif // Insert the RNG in the list, sorted by CRC FRandom **prev = &RNGList, *probe = RNGList; while (probe != NULL && probe->NameCRC < NameCRC) { prev = &probe->Next; probe = probe->Next; } #ifndef NDEBUG if (probe != NULL) { // Because RNGs are identified by their CRCs in save games, // no two RNGs can have names that hash to the same CRC. // Obviously, this means every RNG must have a unique name. assert (probe->NameCRC != NameCRC); } #endif Next = probe; *prev = this; Init(0); } //========================================================================== // // FRandom - Destructor // //========================================================================== FRandom::~FRandom () { FRandom *rng, **prev; FRandom *last = NULL; prev = &RNGList; rng = RNGList; while (rng != NULL && rng != this) { last = rng; rng = rng->Next; } if (rng != NULL) { *prev = rng->Next; } } //========================================================================== // // FRandom :: StaticClearRandom // // Initialize every RNGs. RNGs are seeded based on the global seed and their // name, so each different RNG can have a different starting value despite // being derived from a common global seed. // //========================================================================== void FRandom::StaticClearRandom () { // go through each RNG and set each starting seed differently for (FRandom *rng = FRandom::RNGList; rng != NULL; rng = rng->Next) { rng->Init(rngseed); } } //========================================================================== // // FRandom :: Init // // Initialize a single RNG with a given seed. // //========================================================================== void FRandom::Init(uint32_t seed) { // [RH] Use the RNG's name's CRC to modify the original seed. // This way, new RNGs can be added later, and it doesn't matter // which order they get initialized in. uint32_t seeds[2] = { NameCRC, seed }; InitByArray(seeds, 2); } //========================================================================== // // FRandom :: StaticSumSeeds // // This function produces a uint32_t that can be used to check the consistancy // of network games between different machines. Only a select few RNGs are // used for the sum, because not all RNGs are important to network sync. // //========================================================================== uint32_t FRandom::StaticSumSeeds () { return pr_spawnmobj.sfmt.u[0] + pr_spawnmobj.idx + pr_acs.sfmt.u[0] + pr_acs.idx + pr_chase.sfmt.u[0] + pr_chase.idx + pr_damagemobj.sfmt.u[0] + pr_damagemobj.idx; } //========================================================================== // // FRandom :: StaticWriteRNGState // // Stores the state of every RNG into a savegame. // //========================================================================== void FRandom::StaticWriteRNGState (FSerializer &arc) { FRandom *rng; arc("rngseed", rngseed); if (arc.BeginArray("rngs")) { for (rng = FRandom::RNGList; rng != NULL; rng = rng->Next) { // Only write those RNGs that have names if (rng->NameCRC != 0) { if (arc.BeginObject(nullptr)) { arc("crc", rng->NameCRC) ("index", rng->idx) .Array("u", rng->sfmt.u, SFMT::N32) .EndObject(); } } } arc.EndArray(); } } //========================================================================== // // FRandom :: StaticReadRNGState // // Restores the state of every RNG from a savegame. RNGs that were added // since the savegame was created are cleared to their initial value. // //========================================================================== void FRandom::StaticReadRNGState(FSerializer &arc) { FRandom *rng; arc("rngseed", rngseed); // Call StaticClearRandom in order to ensure that SFMT is initialized FRandom::StaticClearRandom (); if (arc.BeginArray("rngs")) { int count = arc.ArraySize(); for (int i = 0; i < count; i++) { if (arc.BeginObject(nullptr)) { uint32_t crc; arc("crc", crc); for (rng = FRandom::RNGList; rng != NULL; rng = rng->Next) { if (rng->NameCRC == crc) { arc("index", rng->idx) .Array("u", rng->sfmt.u, SFMT::N32); break; } } arc.EndObject(); } } arc.EndArray(); } } //========================================================================== // // FRandom :: StaticFindRNG // // This function attempts to find an RNG with the given name. // If it can't it will create a new one. Duplicate CRCs will // be ignored and if it happens map to the same RNG. // This is for use by DECORATE. // //========================================================================== FRandom *FRandom::StaticFindRNG (const char *name) { uint32_t NameCRC = CalcCRC32 ((const uint8_t *)name, (unsigned int)strlen (name)); // Use the default RNG if this one happens to have a CRC of 0. if (NameCRC == 0) return &pr_exrandom; // Find the RNG in the list, sorted by CRC FRandom **prev = &RNGList, *probe = RNGList; while (probe != NULL && probe->NameCRC < NameCRC) { prev = &probe->Next; probe = probe->Next; } // Found one so return it. if (probe == NULL || probe->NameCRC != NameCRC) { // A matching RNG doesn't exist yet so create it. probe = new FRandom(name); // Store the new RNG for destruction when ZDoom quits. NewRNGs.Push(probe); } return probe; } //========================================================================== // // FRandom :: StaticPrintSeeds // // Prints a snapshot of the current RNG states. This is probably wrong. // //========================================================================== #ifndef NDEBUG void FRandom::StaticPrintSeeds () { FRandom *rng = RNGList; while (rng != NULL) { int idx = rng->idx < SFMT::N32 ? rng->idx : 0; Printf ("%s: %08x .. %d\n", rng->Name, rng->sfmt.u[idx], idx); rng = rng->Next; } } CCMD (showrngs) { FRandom::StaticPrintSeeds (); } #endif