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Location: cpp/openttd-patchpack/source/src/newgrf_generic.cpp
r20075:2bda14adc373
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(svn r25038) -Fix [FS#5479]: minimise gaps feature caused removal to only happen at the signal build interval instead of the implicit interval of 1
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/*
* 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 newgrf_generic.cpp Handling of generic feature callbacks. */
#include "stdafx.h"
#include "debug.h"
#include "newgrf_spritegroup.h"
#include "industrytype.h"
#include "core/random_func.hpp"
#include "newgrf_sound.h"
#include "water_map.h"
#include <list>
/** Scope resolver for generic objects and properties. */
struct GenericScopeResolver : public ScopeResolver {
CargoID cargo_type;
uint8 default_selection;
uint8 src_industry; ///< Source industry substitute type. 0xFF for "town", 0xFE for "unknown".
uint8 dst_industry; ///< Destination industry substitute type. 0xFF for "town", 0xFE for "unknown".
uint8 distance;
AIConstructionEvent event;
uint8 count;
uint8 station_size;
GenericScopeResolver(ResolverObject *ro, bool ai_callback);
/* virtual */ uint32 GetVariable(byte variable, uint32 parameter, bool *available) const;
private:
bool ai_callback; ///< Callback comes from the AI.
};
/** Resolver object for generic objects/properties. */
struct GenericResolverObject : public ResolverObject {
GenericScopeResolver generic_scope;
GenericResolverObject(bool ai_callback, CallbackID callback = CBID_NO_CALLBACK);
/* virtual */ ScopeResolver *GetScope(VarSpriteGroupScope scope = VSG_SCOPE_SELF, byte relative = 0)
{
switch (scope) {
case VSG_SCOPE_SELF: return &this->generic_scope;
default: return ResolverObject::GetScope(scope, relative);
}
}
/* virtual */ const SpriteGroup *ResolveReal(const RealSpriteGroup *group) const;
};
struct GenericCallback {
const GRFFile *file;
const SpriteGroup *group;
GenericCallback(const GRFFile *file, const SpriteGroup *group) :
file(file),
group(group)
{ }
};
typedef std::list<GenericCallback> GenericCallbackList;
static GenericCallbackList _gcl[GSF_END];
/**
* Reset all generic feature callback sprite groups.
*/
void ResetGenericCallbacks()
{
for (uint8 feature = 0; feature < lengthof(_gcl); feature++) {
_gcl[feature].clear();
}
}
/**
* Add a generic feature callback sprite group to the appropriate feature list.
* @param feature The feature for the callback.
* @param file The GRF of the callback.
* @param group The sprite group of the callback.
*/
void AddGenericCallback(uint8 feature, const GRFFile *file, const SpriteGroup *group)
{
if (feature >= lengthof(_gcl)) {
grfmsg(5, "AddGenericCallback: Unsupported feature 0x%02X", feature);
return;
}
/* Generic feature callbacks are evaluated in reverse (i.e. the last group
* to be added is evaluated first, etc) thus we push the group to the
* beginning of the list so a standard iterator will do the right thing. */
_gcl[feature].push_front(GenericCallback(file, group));
}
/* virtual */ uint32 GenericScopeResolver::GetVariable(byte variable, uint32 parameter, bool *available) const
{
if (this->ai_callback) {
switch (variable) {
case 0x40: return this->ro->grffile->cargo_map[this->cargo_type];
case 0x80: return this->cargo_type;
case 0x81: return CargoSpec::Get(this->cargo_type)->bitnum;
case 0x82: return this->default_selection;
case 0x83: return this->src_industry;
case 0x84: return this->dst_industry;
case 0x85: return this->distance;
case 0x86: return this->event;
case 0x87: return this->count;
case 0x88: return this->station_size;
default: break;
}
}
DEBUG(grf, 1, "Unhandled generic feature variable 0x%02X", variable);
*available = false;
return UINT_MAX;
}
/* virtual */ const SpriteGroup *GenericResolverObject::ResolveReal(const RealSpriteGroup *group) const
{
if (group->num_loaded == 0) return NULL;
return group->loaded[0];
}
/**
* Generic resolver.
* @param ai_callback Callback comes from the AI.
* @param callback Callback ID.
*/
GenericResolverObject::GenericResolverObject(bool ai_callback, CallbackID callback) : ResolverObject(NULL, callback), generic_scope(this, ai_callback)
{
}
/**
* Generic scope resolver.
* @param ro Surrounding resolver.
* @param ai_callback Callback comes from the AI.
*/
GenericScopeResolver::GenericScopeResolver(ResolverObject *ro, bool ai_callback) : ScopeResolver(ro)
{
this->cargo_type = 0;
this->default_selection = 0;
this->src_industry = 0;
this->dst_industry = 0;
this->distance = 0;
this->event = (AIConstructionEvent)0;
this->count = 0;
this->station_size = 0;
this->ai_callback = ai_callback;
}
/**
* Follow a generic feature callback list and return the first successful
* answer
* @param feature GRF Feature of callback
* @param object pre-populated resolver object
* @param param1_grfv7 callback_param1 for GRFs up to version 7.
* @param param1_grfv8 callback_param1 for GRFs from version 8 on.
* @param [out] file Optionally returns the GRFFile which made the final decision for the callback result.
* May be NULL if not required.
* @return callback value if successful or CALLBACK_FAILED
*/
static uint16 GetGenericCallbackResult(uint8 feature, ResolverObject *object, uint32 param1_grfv7, uint32 param1_grfv8, const GRFFile **file)
{
assert(feature < lengthof(_gcl));
/* Test each feature callback sprite group. */
for (GenericCallbackList::const_iterator it = _gcl[feature].begin(); it != _gcl[feature].end(); ++it) {
const SpriteGroup *group = it->group;
object->grffile = it->file;
/* Set callback param based on GRF version. */
object->callback_param1 = it->file->grf_version >= 8 ? param1_grfv8 : param1_grfv7;
group = SpriteGroup::Resolve(group, object);
if (group == NULL || group->GetCallbackResult() == CALLBACK_FAILED) continue;
/* Return NewGRF file if necessary */
if (file != NULL) *file = it->file;
return group->GetCallbackResult();
}
/* No callback returned a valid result, so we've failed. */
return CALLBACK_FAILED;
}
/**
* 'Execute' an AI purchase selection callback
*
* @param feature GRF Feature to call callback for.
* @param cargo_type Cargotype to pass to callback. (Variable 80)
* @param default_selection 'Default selection' to pass to callback. (Variable 82)
* @param src_industry 'Source industry type' to pass to callback. (Variable 83)
* @param dst_industry 'Destination industry type' to pass to callback. (Variable 84)
* @param distance 'Distance between source and destination' to pass to callback. (Variable 85)
* @param event 'AI construction event' to pass to callback. (Variable 86)
* @param count 'Construction number' to pass to callback. (Variable 87)
* @param station_size 'Station size' to pass to callback. (Variable 88)
* @param [out] file Optionally returns the GRFFile which made the final decision for the callback result.
* May be NULL if not required.
* @return callback value if successful or CALLBACK_FAILED
*/
uint16 GetAiPurchaseCallbackResult(uint8 feature, CargoID cargo_type, uint8 default_selection, IndustryType src_industry, IndustryType dst_industry, uint8 distance, AIConstructionEvent event, uint8 count, uint8 station_size, const GRFFile **file)
{
GenericResolverObject object(true, CBID_GENERIC_AI_PURCHASE_SELECTION);
if (src_industry != IT_AI_UNKNOWN && src_industry != IT_AI_TOWN) {
const IndustrySpec *is = GetIndustrySpec(src_industry);
/* If this is no original industry, use the substitute type */
if (is->grf_prop.subst_id != INVALID_INDUSTRYTYPE) src_industry = is->grf_prop.subst_id;
}
if (dst_industry != IT_AI_UNKNOWN && dst_industry != IT_AI_TOWN) {
const IndustrySpec *is = GetIndustrySpec(dst_industry);
/* If this is no original industry, use the substitute type */
if (is->grf_prop.subst_id != INVALID_INDUSTRYTYPE) dst_industry = is->grf_prop.subst_id;
}
object.generic_scope.cargo_type = cargo_type;
object.generic_scope.default_selection = default_selection;
object.generic_scope.src_industry = src_industry;
object.generic_scope.dst_industry = dst_industry;
object.generic_scope.distance = distance;
object.generic_scope.event = event;
object.generic_scope.count = count;
object.generic_scope.station_size = station_size;
uint16 callback = GetGenericCallbackResult(feature, &object, 0, 0, file);
if (callback != CALLBACK_FAILED) callback = GB(callback, 0, 8);
return callback;
}
/**
* 'Execute' the ambient sound effect callback.
* @param tile Tile the sound effect should be generated for.
*/
void AmbientSoundEffectCallback(TileIndex tile)
{
assert(IsTileType(tile, MP_CLEAR) || IsTileType(tile, MP_TREES) || IsTileType(tile, MP_WATER));
/* Only run every 1/200-th time. */
uint32 r; // Save for later
if (!Chance16R(1, 200, r) || !_settings_client.sound.ambient) return;
/* Prepare resolver object. */
GenericResolverObject object(false, CBID_SOUNDS_AMBIENT_EFFECT);
uint32 param1_v7 = GetTileType(tile) << 28 | Clamp(TileHeight(tile), 0, 15) << 24 | GB(r, 16, 8) << 16 | GetTerrainType(tile);
uint32 param1_v8 = GetTileType(tile) << 24 | GetTileZ(tile) << 16 | GB(r, 16, 8) << 8 | (HasTileWaterClass(tile) ? GetWaterClass(tile) : 0) << 3 | GetTerrainType(tile);
/* Run callback. */
const GRFFile *grf_file;
uint16 callback = GetGenericCallbackResult(GSF_SOUNDFX, &object, param1_v7, param1_v8, &grf_file);
if (callback != CALLBACK_FAILED) PlayTileSound(grf_file, callback, tile);
}
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