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vcmi/client/mapView/MapRenderer.cpp
2023-08-06 14:11:31 +03:00

788 lines
24 KiB
C++

/*
* MapRenderer.cpp, part of VCMI engine
*
* Authors: listed in file AUTHORS in main folder
*
* License: GNU General Public License v2.0 or later
* Full text of license available in license.txt file, in main folder
*
*/
#include "StdInc.h"
#include "MapRenderer.h"
#include "IMapRendererContext.h"
#include "mapHandler.h"
#include "../CGameInfo.h"
#include "../render/CAnimation.h"
#include "../render/Canvas.h"
#include "../render/IImage.h"
#include "../../CCallback.h"
#include "../../lib/RiverHandler.h"
#include "../../lib/RoadHandler.h"
#include "../../lib/TerrainHandler.h"
#include "../../lib/mapObjects/CGHeroInstance.h"
#include "../../lib/mapObjects/MiscObjects.h"
#include "../../lib/mapObjects/ObjectTemplate.h"
#include "../../lib/mapping/CMapDefines.h"
#include "../../lib/pathfinder/CGPathNode.h"
struct NeighborTilesInfo
{
//567
//3 4
//012
std::bitset<8> d;
NeighborTilesInfo(IMapRendererContext & context, const int3 & pos)
{
auto checkTile = [&](int dx, int dy)
{
return context.isVisible(pos + int3(dx, dy, 0));
};
// sides
d[1] = checkTile(0, +1);
d[3] = checkTile(-1, 0);
d[4] = checkTile(+1, 0);
d[6] = checkTile(0, -1);
// corners - select visible image if either corner or adjacent sides are visible
d[0] = d[1] || d[3] || checkTile(-1, +1);
d[2] = d[1] || d[4] || checkTile(+1, +1);
d[5] = d[3] || d[6] || checkTile(-1, -1);
d[7] = d[4] || d[6] || checkTile(+1, -1);
}
bool areAllHidden() const
{
return d.none();
}
int getBitmapID() const
{
//NOTE: some images have unused in VCMI pair (same blockmap but a bit different look)
// 0-1, 2-3, 4-5, 11-13, 12-14
static const int visBitmaps[256] = {
-1, 34, 4, 4, 22, 23, 4, 4, 36, 36, 38, 38, 47, 47, 38, 38, //16
3, 25, 12, 12, 3, 25, 12, 12, 9, 9, 6, 6, 9, 9, 6, 6, //32
35, 39, 48, 48, 41, 43, 48, 48, 36, 36, 38, 38, 47, 47, 38, 38, //48
26, 49, 28, 28, 26, 49, 28, 28, 9, 9, 6, 6, 9, 9, 6, 6, //64
0, 45, 29, 29, 24, 33, 29, 29, 37, 37, 7, 7, 50, 50, 7, 7, //80
13, 27, 44, 44, 13, 27, 44, 44, 8, 8, 10, 10, 8, 8, 10, 10, //96
0, 45, 29, 29, 24, 33, 29, 29, 37, 37, 7, 7, 50, 50, 7, 7, //112
13, 27, 44, 44, 13, 27, 44, 44, 8, 8, 10, 10, 8, 8, 10, 10, //128
15, 17, 30, 30, 16, 19, 30, 30, 46, 46, 40, 40, 32, 32, 40, 40, //144
2, 25, 12, 12, 2, 25, 12, 12, 9, 9, 6, 6, 9, 9, 6, 6, //160
18, 42, 31, 31, 20, 21, 31, 31, 46, 46, 40, 40, 32, 32, 40, 40, //176
26, 49, 28, 28, 26, 49, 28, 28, 9, 9, 6, 6, 9, 9, 6, 6, //192
0, 45, 29, 29, 24, 33, 29, 29, 37, 37, 7, 7, 50, 50, 7, 7, //208
13, 27, 44, 44, 13, 27, 44, 44, 8, 8, 10, 10, 8, 8, 10, 10, //224
0, 45, 29, 29, 24, 33, 29, 29, 37, 37, 7, 7, 50, 50, 7, 7, //240
13, 27, 44, 44, 13, 27, 44, 44, 8, 8, 10, 10, 8, 8, 10, 10 //256
};
return visBitmaps[d.to_ulong()]; // >=0 -> partial hide, <0 - full hide
}
};
MapTileStorage::MapTileStorage(size_t capacity)
: animations(capacity)
{
}
void MapTileStorage::load(size_t index, const std::string & filename, EImageBlitMode blitMode)
{
auto & terrainAnimations = animations[index];
for(auto & entry : terrainAnimations)
{
if (!filename.empty())
{
entry = std::make_unique<CAnimation>(filename);
entry->preload();
}
else
entry = std::make_unique<CAnimation>();
for(size_t i = 0; i < entry->size(); ++i)
entry->getImage(i)->setBlitMode(blitMode);
}
for(size_t i = 0; i < terrainAnimations[0]->size(); ++i)
{
terrainAnimations[1]->getImage(i)->verticalFlip();
terrainAnimations[3]->getImage(i)->verticalFlip();
terrainAnimations[2]->getImage(i)->horizontalFlip();
terrainAnimations[3]->getImage(i)->horizontalFlip();
}
}
std::shared_ptr<IImage> MapTileStorage::find(size_t fileIndex, size_t rotationIndex, size_t imageIndex)
{
const auto & animation = animations[fileIndex][rotationIndex];
return animation->getImage(imageIndex);
}
MapRendererTerrain::MapRendererTerrain()
: storage(VLC->terrainTypeHandler->objects.size())
{
for(const auto & terrain : VLC->terrainTypeHandler->objects)
storage.load(terrain->getIndex(), terrain->tilesFilename, EImageBlitMode::OPAQUE);
}
void MapRendererTerrain::renderTile(IMapRendererContext & context, Canvas & target, const int3 & coordinates)
{
const TerrainTile & mapTile = context.getMapTile(coordinates);
int32_t terrainIndex = mapTile.terType->getIndex();
int32_t imageIndex = mapTile.terView;
int32_t rotationIndex = mapTile.extTileFlags % 4;
const auto & image = storage.find(terrainIndex, rotationIndex, imageIndex);
assert(image);
if (!image)
{
logGlobal->error("Failed to find image %d for terrain %s on tile %s", imageIndex, mapTile.terType->getNameTranslated(), coordinates.toString());
return;
}
for( auto const & element : mapTile.terType->paletteAnimation)
image->shiftPalette(element.start, element.length, context.terrainImageIndex(element.length));
target.draw(image, Point(0, 0));
}
uint8_t MapRendererTerrain::checksum(IMapRendererContext & context, const int3 & coordinates)
{
const TerrainTile & mapTile = context.getMapTile(coordinates);
if(!mapTile.terType->paletteAnimation.empty())
return context.terrainImageIndex(250);
return 0xff - 1;
}
MapRendererRiver::MapRendererRiver()
: storage(VLC->riverTypeHandler->objects.size())
{
for(const auto & river : VLC->riverTypeHandler->objects)
storage.load(river->getIndex(), river->tilesFilename, EImageBlitMode::COLORKEY);
}
void MapRendererRiver::renderTile(IMapRendererContext & context, Canvas & target, const int3 & coordinates)
{
const TerrainTile & mapTile = context.getMapTile(coordinates);
if(mapTile.riverType->getId() == River::NO_RIVER)
return;
int32_t terrainIndex = mapTile.riverType->getIndex();
int32_t imageIndex = mapTile.riverDir;
int32_t rotationIndex = (mapTile.extTileFlags >> 2) % 4;
const auto & image = storage.find(terrainIndex, rotationIndex, imageIndex);
for( auto const & element : mapTile.riverType->paletteAnimation)
image->shiftPalette(element.start, element.length, context.terrainImageIndex(element.length));
target.draw(image, Point(0, 0));
}
uint8_t MapRendererRiver::checksum(IMapRendererContext & context, const int3 & coordinates)
{
const TerrainTile & mapTile = context.getMapTile(coordinates);
if(!mapTile.riverType->paletteAnimation.empty())
return context.terrainImageIndex(250);
return 0xff-1;
}
MapRendererRoad::MapRendererRoad()
: storage(VLC->roadTypeHandler->objects.size())
{
for(const auto & road : VLC->roadTypeHandler->objects)
storage.load(road->getIndex(), road->tilesFilename, EImageBlitMode::COLORKEY);
}
void MapRendererRoad::renderTile(IMapRendererContext & context, Canvas & target, const int3 & coordinates)
{
const int3 coordinatesAbove = coordinates - int3(0, 1, 0);
if(context.isInMap(coordinatesAbove))
{
const TerrainTile & mapTileAbove = context.getMapTile(coordinatesAbove);
if(mapTileAbove.roadType->getId() != Road::NO_ROAD)
{
int32_t terrainIndex = mapTileAbove.roadType->getIndex();
int32_t imageIndex = mapTileAbove.roadDir;
int32_t rotationIndex = (mapTileAbove.extTileFlags >> 4) % 4;
const auto & image = storage.find(terrainIndex, rotationIndex, imageIndex);
target.draw(image, Point(0, 0), Rect(0, 16, 32, 16));
}
}
const TerrainTile & mapTile = context.getMapTile(coordinates);
if(mapTile.roadType->getId() != Road::NO_ROAD)
{
int32_t terrainIndex = mapTile.roadType->getIndex();
int32_t imageIndex = mapTile.roadDir;
int32_t rotationIndex = (mapTile.extTileFlags >> 4) % 4;
const auto & image = storage.find(terrainIndex, rotationIndex, imageIndex);
target.draw(image, Point(0, 16), Rect(0, 0, 32, 16));
}
}
uint8_t MapRendererRoad::checksum(IMapRendererContext & context, const int3 & coordinates)
{
return 0;
}
MapRendererBorder::MapRendererBorder()
{
emptyFill = std::make_unique<Canvas>(Point(32,32));
animation = std::make_unique<CAnimation>("EDG");
animation->preload();
}
size_t MapRendererBorder::getIndexForTile(IMapRendererContext & context, const int3 & tile)
{
assert(!context.isInMap(tile));
int3 size = context.getMapSize();
if(tile.x < -1 || tile.x > size.x || tile.y < -1 || tile.y > size.y)
return std::abs(tile.x) % 4 + 4 * (std::abs(tile.y) % 4);
if(tile.x == -1 && tile.y == -1)
return 16;
if(tile.x == size.x && tile.y == -1)
return 17;
if(tile.x == size.x && tile.y == size.y)
return 18;
if(tile.x == -1 && tile.y == size.y)
return 19;
if(tile.y == -1)
return 20 + (tile.x % 4);
if(tile.x == size.x)
return 24 + (tile.y % 4);
if(tile.y == size.y)
return 28 + (tile.x % 4);
if(tile.x == -1)
return 32 + (tile.y % 4);
//else - visible area, no renderable border
assert(0);
return 0;
}
void MapRendererBorder::renderTile(IMapRendererContext & context, Canvas & target, const int3 & coordinates)
{
if (context.showBorder())
{
const auto & image = animation->getImage(getIndexForTile(context, coordinates));
target.draw(image, Point(0, 0));
}
else
{
target.draw(*emptyFill, Point(0,0));
}
}
uint8_t MapRendererBorder::checksum(IMapRendererContext & context, const int3 & coordinates)
{
return 0;
}
MapRendererFow::MapRendererFow()
{
fogOfWarFullHide = std::make_unique<CAnimation>("TSHRC");
fogOfWarFullHide->preload();
fogOfWarPartialHide = std::make_unique<CAnimation>("TSHRE");
fogOfWarPartialHide->preload();
for(size_t i = 0; i < fogOfWarFullHide->size(); ++i)
fogOfWarFullHide->getImage(i)->setBlitMode(EImageBlitMode::OPAQUE);
static const std::vector<int> rotations = {22, 15, 2, 13, 12, 16, 28, 17, 20, 19, 7, 24, 26, 25, 30, 32, 27};
size_t size = fogOfWarPartialHide->size(0); //group size after next rotation
for(const int rotation : rotations)
{
fogOfWarPartialHide->duplicateImage(0, rotation, 0);
auto image = fogOfWarPartialHide->getImage(size, 0);
image->verticalFlip();
size++;
}
}
void MapRendererFow::renderTile(IMapRendererContext & context, Canvas & target, const int3 & coordinates)
{
assert(!context.isVisible(coordinates));
const NeighborTilesInfo neighborInfo(context, coordinates);
int retBitmapID = neighborInfo.getBitmapID(); // >=0 -> partial hide, <0 - full hide
if(retBitmapID < 0)
{
// generate a number that is predefined for each tile,
// but appears random to break visible pattern in large areas of fow
// current approach (use primes as magic numbers for formula) looks to be suitable
size_t pseudorandomNumber = ((coordinates.x * 997) ^ (coordinates.y * 1009)) / 101;
size_t imageIndex = pseudorandomNumber % fogOfWarFullHide->size();
target.draw(fogOfWarFullHide->getImage(imageIndex), Point(0, 0));
}
else
{
target.draw(fogOfWarPartialHide->getImage(retBitmapID), Point(0, 0));
}
}
uint8_t MapRendererFow::checksum(IMapRendererContext & context, const int3 & coordinates)
{
const NeighborTilesInfo neighborInfo(context, coordinates);
int retBitmapID = neighborInfo.getBitmapID();
if(retBitmapID < 0)
return 0xff - 1;
return retBitmapID;
}
std::shared_ptr<CAnimation> MapRendererObjects::getBaseAnimation(const CGObjectInstance* obj)
{
const auto & info = obj->appearance;
//the only(?) invisible object
if(info->id == Obj::EVENT)
return std::shared_ptr<CAnimation>();
if(info->animationFile.empty())
{
logGlobal->warn("Def name for obj (%d,%d) is empty!", info->id, info->subid);
return std::shared_ptr<CAnimation>();
}
bool generateMovementGroups = (info->id == Obj::BOAT) || (info->id == Obj::HERO);
// Boat appearance files only contain single, unanimated image
// proper boat animations are actually in different file
if (info->id == Obj::BOAT)
if(auto boat = dynamic_cast<const CGBoat*>(obj); boat && !boat->actualAnimation.empty())
return getAnimation(boat->actualAnimation, generateMovementGroups);
return getAnimation(info->animationFile, generateMovementGroups);
}
std::shared_ptr<CAnimation> MapRendererObjects::getAnimation(const std::string & filename, bool generateMovementGroups)
{
auto it = animations.find(filename);
if(it != animations.end())
return it->second;
auto ret = std::make_shared<CAnimation>(filename);
animations[filename] = ret;
ret->preload();
if(generateMovementGroups)
{
ret->createFlippedGroup(1, 13);
ret->createFlippedGroup(2, 14);
ret->createFlippedGroup(3, 15);
ret->createFlippedGroup(6, 10);
ret->createFlippedGroup(7, 11);
ret->createFlippedGroup(8, 12);
}
return ret;
}
std::shared_ptr<CAnimation> MapRendererObjects::getFlagAnimation(const CGObjectInstance* obj)
{
//TODO: relocate to config file?
static const std::vector<std::string> heroFlags = {
"AF00", "AF01", "AF02", "AF03", "AF04", "AF05", "AF06", "AF07"
};
if(obj->ID == Obj::HERO)
{
assert(dynamic_cast<const CGHeroInstance *>(obj) != nullptr);
assert(obj->tempOwner.isValidPlayer());
return getAnimation(heroFlags[obj->tempOwner.getNum()], true);
}
if(obj->ID == Obj::BOAT)
{
const auto * boat = dynamic_cast<const CGBoat *>(obj);
if(boat && boat->hero && !boat->flagAnimations[boat->hero->tempOwner.getNum()].empty())
return getAnimation(boat->flagAnimations[boat->hero->tempOwner.getNum()], true);
}
return nullptr;
}
std::shared_ptr<CAnimation> MapRendererObjects::getOverlayAnimation(const CGObjectInstance * obj)
{
if(obj->ID == Obj::BOAT)
{
// Boats have additional animation with waves around boat
const auto * boat = dynamic_cast<const CGBoat *>(obj);
if(boat && boat->hero && !boat->overlayAnimation.empty())
return getAnimation(boat->overlayAnimation, true);
}
return nullptr;
}
std::shared_ptr<IImage> MapRendererObjects::getImage(IMapRendererContext & context, const CGObjectInstance * obj, const std::shared_ptr<CAnimation>& animation) const
{
if(!animation)
return nullptr;
size_t groupIndex = context.objectGroupIndex(obj->id);
if(animation->size(groupIndex) == 0)
return nullptr;
size_t frameIndex = context.objectImageIndex(obj->id, animation->size(groupIndex));
return animation->getImage(frameIndex, groupIndex);
}
void MapRendererObjects::renderImage(IMapRendererContext & context, Canvas & target, const int3 & coordinates, const CGObjectInstance * object, const std::shared_ptr<IImage>& image)
{
if(!image)
return;
auto transparency = static_cast<uint8_t>(std::round(255 * context.objectTransparency(object->id, coordinates)));
if (transparency == 0)
return;
image->setAlpha(transparency);
image->setFlagColor(object->tempOwner);
Point offsetPixels = context.objectImageOffset(object->id, coordinates);
if ( offsetPixels.x < image->dimensions().x && offsetPixels.y < image->dimensions().y)
{
Point imagePos = image->dimensions() - offsetPixels - Point(32, 32);
//if (transparency == 255)
//{
// Canvas intermediate(Point(32,32));
// intermediate.enableTransparency(true);
// image->setBlitMode(EImageBlitMode::OPAQUE);
// intermediate.draw(image, Point(0, 0), Rect(imagePos, Point(32,32)));
// target.draw(intermediate, Point(0,0));
// return;
//}
target.draw(image, Point(0, 0), Rect(imagePos, Point(32,32)));
}
}
void MapRendererObjects::renderObject(IMapRendererContext & context, Canvas & target, const int3 & coordinates, const CGObjectInstance * instance)
{
renderImage(context, target, coordinates, instance, getImage(context, instance, getBaseAnimation(instance)));
renderImage(context, target, coordinates, instance, getImage(context, instance, getFlagAnimation(instance)));
renderImage(context, target, coordinates, instance, getImage(context, instance, getOverlayAnimation(instance)));
}
void MapRendererObjects::renderTile(IMapRendererContext & context, Canvas & target, const int3 & coordinates)
{
for(const auto & objectID : context.getObjects(coordinates))
{
const auto * objectInstance = context.getObject(objectID);
assert(objectInstance);
if(!objectInstance)
{
logGlobal->error("Stray map object that isn't fading");
continue;
}
renderObject(context, target, coordinates, objectInstance);
}
}
uint8_t MapRendererObjects::checksum(IMapRendererContext & context, const int3 & coordinates)
{
for(const auto & objectID : context.getObjects(coordinates))
{
const auto * objectInstance = context.getObject(objectID);
assert(objectInstance);
if(!objectInstance)
{
logGlobal->error("Stray map object that isn't fading");
continue;
}
size_t groupIndex = context.objectGroupIndex(objectInstance->id);
Point offsetPixels = context.objectImageOffset(objectInstance->id, coordinates);
auto base = getBaseAnimation(objectInstance);
auto flag = getFlagAnimation(objectInstance);
if (base && base->size(groupIndex) > 1)
{
auto imageIndex = context.objectImageIndex(objectID, base->size(groupIndex));
auto image = base->getImage(imageIndex, groupIndex);
if ( offsetPixels.x < image->dimensions().x && offsetPixels.y < image->dimensions().y)
return context.objectImageIndex(objectID, 250);
}
if (flag && flag->size(groupIndex) > 1)
{
auto imageIndex = context.objectImageIndex(objectID, flag->size(groupIndex));
auto image = flag->getImage(imageIndex, groupIndex);
if ( offsetPixels.x < image->dimensions().x && offsetPixels.y < image->dimensions().y)
return context.objectImageIndex(objectID, 250);
}
}
return 0xff-1;
}
MapRendererOverlay::MapRendererOverlay()
: imageGrid(IImage::createFromFile("debug/grid", EImageBlitMode::ALPHA))
, imageBlocked(IImage::createFromFile("debug/blocked", EImageBlitMode::ALPHA))
, imageVisitable(IImage::createFromFile("debug/visitable", EImageBlitMode::ALPHA))
, imageSpellRange(IImage::createFromFile("debug/spellRange", EImageBlitMode::ALPHA))
{
}
void MapRendererOverlay::renderTile(IMapRendererContext & context, Canvas & target, const int3 & coordinates)
{
if(context.showGrid())
target.draw(imageGrid, Point(0,0));
if(context.showVisitable() || context.showBlocked())
{
bool blocking = false;
bool visitable = false;
for(const auto & objectID : context.getObjects(coordinates))
{
const auto * object = context.getObject(objectID);
if(context.objectTransparency(objectID, coordinates) > 0 && !context.isActiveHero(object))
{
visitable |= object->visitableAt(coordinates.x, coordinates.y);
blocking |= object->blockingAt(coordinates.x, coordinates.y);
}
}
if (context.showBlocked() && blocking)
target.draw(imageBlocked, Point(0,0));
if (context.showVisitable() && visitable)
target.draw(imageVisitable, Point(0,0));
}
if (context.showSpellRange(coordinates))
target.draw(imageSpellRange, Point(0,0));
}
uint8_t MapRendererOverlay::checksum(IMapRendererContext & context, const int3 & coordinates)
{
uint8_t result = 0;
if (context.showVisitable())
result += 1;
if (context.showBlocked())
result += 2;
if (context.showGrid())
result += 4;
if (context.showSpellRange(coordinates))
result += 8;
return result;
}
MapRendererPath::MapRendererPath()
: pathNodes(new CAnimation("ADAG"))
{
pathNodes->preload();
}
size_t MapRendererPath::selectImageReachability(bool reachableToday, size_t imageIndex)
{
const static size_t unreachableTodayOffset = 25;
if(!reachableToday)
return unreachableTodayOffset + imageIndex;
return imageIndex;
}
size_t MapRendererPath::selectImageCross(bool reachableToday, const int3 & curr)
{
return selectImageReachability(reachableToday, 0);
}
size_t MapRendererPath::selectImageArrow(bool reachableToday, const int3 & curr, const int3 & prev, const int3 & next)
{
// Vector directions
// 0 1 2
// |
// 3 - 4 - 5
// |
// 6 7 8
//For example:
// |
// +->
// is (directionToArrowIndex[7][5])
//
const static size_t directionToArrowIndex[9][9] = {
{16, 17, 18, 7, 0, 19, 6, 5, 0 },
{8, 9, 18, 7, 0, 19, 6, 0, 20},
{8, 1, 10, 7, 0, 19, 0, 21, 20},
{24, 17, 18, 15, 0, 0, 6, 5, 4 },
{0, 0, 0, 0, 0, 0, 0, 0, 0 },
{8, 1, 2, 0, 0, 11, 22, 21, 20},
{24, 17, 0, 23, 0, 3, 14, 5, 4 },
{24, 0, 2, 23, 0, 3, 22, 13, 4 },
{0, 1, 2, 23, 0, 3, 22, 21, 12}
};
size_t enterDirection = (curr.x - next.x + 1) + 3 * (curr.y - next.y + 1);
size_t leaveDirection = (prev.x - curr.x + 1) + 3 * (prev.y - curr.y + 1);
size_t imageIndex = directionToArrowIndex[enterDirection][leaveDirection];
return selectImageReachability(reachableToday, imageIndex);
}
void MapRendererPath::renderTile(IMapRendererContext & context, Canvas & target, const int3 & coordinates)
{
size_t imageID = selectImage(context, coordinates);
if (imageID < pathNodes->size())
target.draw(pathNodes->getImage(imageID), Point(0,0));
}
size_t MapRendererPath::selectImage(IMapRendererContext & context, const int3 & coordinates)
{
const auto & functor = [&](const CGPathNode & node)
{
return node.coord == coordinates;
};
const auto * path = context.currentPath();
if(!path)
return std::numeric_limits<size_t>::max();
const auto & iter = boost::range::find_if(path->nodes, functor);
if(iter == path->nodes.end())
return std::numeric_limits<size_t>::max();
bool reachableToday = iter->turns == 0;
if(iter == path->nodes.begin())
return selectImageCross(reachableToday, iter->coord);
auto next = iter + 1;
auto prev = iter - 1;
// start of path - current hero location
if(next == path->nodes.end())
return std::numeric_limits<size_t>::max();
bool pathContinuous = iter->coord.areNeighbours(next->coord) && iter->coord.areNeighbours(prev->coord);
bool embarking = iter->action == EPathNodeAction::EMBARK || iter->action == EPathNodeAction::DISEMBARK;
if(pathContinuous && !embarking)
return selectImageArrow(reachableToday, iter->coord, prev->coord, next->coord);
return selectImageCross(reachableToday, iter->coord);
}
uint8_t MapRendererPath::checksum(IMapRendererContext & context, const int3 & coordinates)
{
return selectImage(context, coordinates) & 0xff;
}
MapRenderer::TileChecksum MapRenderer::getTileChecksum(IMapRendererContext & context, const int3 & coordinates)
{
// computes basic checksum to determine whether tile needs an update
// if any component gives different value, tile will be updated
TileChecksum result;
boost::range::fill(result, std::numeric_limits<uint8_t>::max());
if(!context.isInMap(coordinates))
{
result[0] = rendererBorder.checksum(context, coordinates);
return result;
}
const NeighborTilesInfo neighborInfo(context, coordinates);
if(!context.isVisible(coordinates) && neighborInfo.areAllHidden())
{
result[7] = rendererFow.checksum(context, coordinates);
}
else
{
result[1] = rendererTerrain.checksum(context, coordinates);
if (context.showRivers())
result[2] = rendererRiver.checksum(context, coordinates);
if (context.showRoads())
result[3] = rendererRoad.checksum(context, coordinates);
result[4] = rendererObjects.checksum(context, coordinates);
result[5] = rendererPath.checksum(context, coordinates);
result[6] = rendererOverlay.checksum(context, coordinates);
if(!context.isVisible(coordinates))
result[7] = rendererFow.checksum(context, coordinates);
}
return result;
}
void MapRenderer::renderTile(IMapRendererContext & context, Canvas & target, const int3 & coordinates)
{
if(!context.isInMap(coordinates))
{
rendererBorder.renderTile(context, target, coordinates);
return;
}
const NeighborTilesInfo neighborInfo(context, coordinates);
if(!context.isVisible(coordinates) && neighborInfo.areAllHidden())
{
rendererFow.renderTile(context, target, coordinates);
}
else
{
rendererTerrain.renderTile(context, target, coordinates);
if (context.showRivers())
rendererRiver.renderTile(context, target, coordinates);
if (context.showRoads())
rendererRoad.renderTile(context, target, coordinates);
rendererObjects.renderTile(context, target, coordinates);
rendererPath.renderTile(context, target, coordinates);
rendererOverlay.renderTile(context, target, coordinates);
if(!context.isVisible(coordinates))
rendererFow.renderTile(context, target, coordinates);
}
}