Files @ r27976:645fcc9c218c
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Location: cpp/openttd-patchpack/source/src/saveload/engine_sl.cpp

Peter Nelson
Change: Store station blocked/wires/pylons flags in map. (#11337)

This stores three flags in unused map bits, and avoids having to look up
station graphics and custom station specs to determine blocked/wires/pylons
status.

This potentially affects rail pathfinding performance.

Savegame version is not bumped, as the flags can just be updated every
time.
/*
 * This file is part of OpenTTD.
 * OpenTTD is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, version 2.
 * OpenTTD is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
 * See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with OpenTTD. If not, see <http://www.gnu.org/licenses/>.
 */

/** @file engine_sl.cpp Code handling saving and loading of engines */

#include "../stdafx.h"

#include "saveload.h"
#include "compat/engine_sl_compat.h"

#include "saveload_internal.h"
#include "../engine_base.h"
#include "../string_func.h"

#include "../safeguards.h"

static const SaveLoad _engine_desc[] = {
	 SLE_CONDVAR(Engine, intro_date,          SLE_FILE_U16 | SLE_VAR_I32,  SL_MIN_VERSION,  SLV_31),
	 SLE_CONDVAR(Engine, intro_date,          SLE_INT32,                  SLV_31, SL_MAX_VERSION),
	 SLE_CONDVAR(Engine, age,                 SLE_FILE_U16 | SLE_VAR_I32,  SL_MIN_VERSION,  SLV_31),
	 SLE_CONDVAR(Engine, age,                 SLE_INT32,                  SLV_31, SL_MAX_VERSION),
	     SLE_VAR(Engine, reliability,         SLE_UINT16),
	     SLE_VAR(Engine, reliability_spd_dec, SLE_UINT16),
	     SLE_VAR(Engine, reliability_start,   SLE_UINT16),
	     SLE_VAR(Engine, reliability_max,     SLE_UINT16),
	     SLE_VAR(Engine, reliability_final,   SLE_UINT16),
	     SLE_VAR(Engine, duration_phase_1,    SLE_UINT16),
	     SLE_VAR(Engine, duration_phase_2,    SLE_UINT16),
	     SLE_VAR(Engine, duration_phase_3,    SLE_UINT16),
	     SLE_VAR(Engine, flags,               SLE_UINT8),
	 SLE_CONDVAR(Engine, preview_asked,       SLE_UINT16,                SLV_179, SL_MAX_VERSION),
	 SLE_CONDVAR(Engine, preview_company,     SLE_UINT8,                 SLV_179, SL_MAX_VERSION),
	     SLE_VAR(Engine, preview_wait,        SLE_UINT8),
	 SLE_CONDVAR(Engine, company_avail,       SLE_FILE_U8  | SLE_VAR_U16,  SL_MIN_VERSION, SLV_104),
	 SLE_CONDVAR(Engine, company_avail,       SLE_UINT16,                SLV_104, SL_MAX_VERSION),
	 SLE_CONDVAR(Engine, company_hidden,      SLE_UINT16,                SLV_193, SL_MAX_VERSION),
	SLE_CONDSSTR(Engine, name,                SLE_STR,                    SLV_84, SL_MAX_VERSION),
};

static std::vector<Engine*> _temp_engine;

/**
 * Allocate an Engine structure, but not using the pools.
 * The allocated Engine must be freed using FreeEngine;
 * @return Allocated engine.
 */
static Engine* CallocEngine()
{
	uint8_t *zero = CallocT<uint8_t>(sizeof(Engine));
	Engine *engine = new (zero) Engine();
	return engine;
}

/**
 * Deallocate an Engine constructed by CallocEngine.
 * @param e Engine to free.
 */
static void FreeEngine(Engine *e)
{
	if (e != nullptr) {
		e->~Engine();
		free(e);
	}
}

Engine *GetTempDataEngine(EngineID index)
{
	if (index < _temp_engine.size()) {
		return _temp_engine[index];
	} else if (index == _temp_engine.size()) {
		_temp_engine.push_back(CallocEngine());
		return _temp_engine[index];
	} else {
		NOT_REACHED();
	}
}

struct ENGNChunkHandler : ChunkHandler {
	ENGNChunkHandler() : ChunkHandler('ENGN', CH_TABLE) {}

	void Save() const override
	{
		SlTableHeader(_engine_desc);

		for (Engine *e : Engine::Iterate()) {
			SlSetArrayIndex(e->index);
			SlObject(e, _engine_desc);
		}
	}

	void Load() const override
	{
		const std::vector<SaveLoad> slt = SlCompatTableHeader(_engine_desc, _engine_sl_compat);

		/* As engine data is loaded before engines are initialized we need to load
		 * this information into a temporary array. This is then copied into the
		 * engine pool after processing NewGRFs by CopyTempEngineData(). */
		int index;
		while ((index = SlIterateArray()) != -1) {
			Engine *e = GetTempDataEngine(index);
			SlObject(e, slt);

			if (IsSavegameVersionBefore(SLV_179)) {
				/* preview_company_rank was replaced with preview_company and preview_asked.
				 * Just cancel any previews. */
				e->flags &= ~4; // ENGINE_OFFER_WINDOW_OPEN
				e->preview_company = INVALID_COMPANY;
				e->preview_asked = MAX_UVALUE(CompanyMask);
			}
		}
	}
};

/**
 * Copy data from temporary engine array into the real engine pool.
 */
void CopyTempEngineData()
{
	for (Engine *e : Engine::Iterate()) {
		if (e->index >= _temp_engine.size()) break;

		const Engine *se = GetTempDataEngine(e->index);
		e->intro_date          = se->intro_date;
		e->age                 = se->age;
		e->reliability         = se->reliability;
		e->reliability_spd_dec = se->reliability_spd_dec;
		e->reliability_start   = se->reliability_start;
		e->reliability_max     = se->reliability_max;
		e->reliability_final   = se->reliability_final;
		e->duration_phase_1    = se->duration_phase_1;
		e->duration_phase_2    = se->duration_phase_2;
		e->duration_phase_3    = se->duration_phase_3;
		e->flags               = se->flags;
		e->preview_asked       = se->preview_asked;
		e->preview_company     = se->preview_company;
		e->preview_wait        = se->preview_wait;
		e->company_avail       = se->company_avail;
		e->company_hidden      = se->company_hidden;
		e->name                = se->name;
	}

	ResetTempEngineData();
}

void ResetTempEngineData()
{
	/* Get rid of temporary data */
	for (std::vector<Engine*>::iterator it = _temp_engine.begin(); it != _temp_engine.end(); ++it) {
		FreeEngine(*it);
	}
	_temp_engine.clear();
}

struct ENGSChunkHandler : ChunkHandler {
	ENGSChunkHandler() : ChunkHandler('ENGS', CH_READONLY) {}

	void Load() const override
	{
		/* Load old separate String ID list into a temporary array. This
		 * was always 256 entries. */
		StringID names[256];

		SlCopy(names, lengthof(names), SLE_STRINGID);

		/* Copy each string into the temporary engine array. */
		for (EngineID engine = 0; engine < lengthof(names); engine++) {
			Engine *e = GetTempDataEngine(engine);
			e->name = CopyFromOldName(names[engine]);
		}
	}
};

/** Save and load the mapping between the engine id in the pool, and the grf file it came from. */
static const SaveLoad _engine_id_mapping_desc[] = {
	SLE_VAR(EngineIDMapping, grfid,         SLE_UINT32),
	SLE_VAR(EngineIDMapping, internal_id,   SLE_UINT16),
	SLE_VAR(EngineIDMapping, type,          SLE_UINT8),
	SLE_VAR(EngineIDMapping, substitute_id, SLE_UINT8),
};

struct EIDSChunkHandler : ChunkHandler {
	EIDSChunkHandler() : ChunkHandler('EIDS', CH_TABLE) {}

	void Save() const override
	{
		SlTableHeader(_engine_id_mapping_desc);

		uint index = 0;
		for (EngineIDMapping &eid : _engine_mngr) {
			SlSetArrayIndex(index);
			SlObject(&eid, _engine_id_mapping_desc);
			index++;
		}
	}

	void Load() const override
	{
		const std::vector<SaveLoad> slt = SlCompatTableHeader(_engine_id_mapping_desc, _engine_id_mapping_sl_compat);

		_engine_mngr.clear();

		while (SlIterateArray() != -1) {
			EngineIDMapping *eid = &_engine_mngr.emplace_back();
			SlObject(eid, slt);
		}
	}
};

static const EIDSChunkHandler EIDS;
static const ENGNChunkHandler ENGN;
static const ENGSChunkHandler ENGS;
static const ChunkHandlerRef engine_chunk_handlers[] = {
	EIDS,
	ENGN,
	ENGS,
};

extern const ChunkHandlerTable _engine_chunk_handlers(engine_chunk_handlers);