tibia-client/src/client/minimap.cpp

429 lines
13 KiB
C++

/*
* Copyright (c) 2010-2014 OTClient <https://github.com/edubart/otclient>
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#include "minimap.h"
#include "tile.h"
#include <framework/graphics/image.h>
#include <framework/graphics/texture.h>
#include <framework/graphics/painter.h>
#include <framework/graphics/image.h>
#include <framework/graphics/framebuffermanager.h>
#include <framework/core/resourcemanager.h>
#include <framework/core/filestream.h>
#include <zlib.h>
Minimap g_minimap;
void MinimapBlock::clean()
{
m_tiles.fill(MinimapTile());
m_texture.reset();
m_mustUpdate = false;
}
void MinimapBlock::update()
{
if(!m_mustUpdate)
return;
ImagePtr image(new Image(Size(MMBLOCK_SIZE, MMBLOCK_SIZE)));
bool shouldDraw = false;
for(int x=0;x<MMBLOCK_SIZE;++x) {
for(int y=0;y<MMBLOCK_SIZE;++y) {
uint8 c = getTile(x, y).color;
uint32 col;
if(c != 255) {
col = Color::from8bit(c).rgba();
shouldDraw = true;
} else
col = Color::alpha.rgba();
image->setPixel(x, y, col);
}
}
if(shouldDraw) {
if(!m_texture) {
m_texture = TexturePtr(new Texture(image, true));
} else {
m_texture->uploadPixels(image, true);
}
} else
m_texture.reset();
m_mustUpdate = false;
}
void MinimapBlock::updateTile(int x, int y, const MinimapTile& tile)
{
if(m_tiles[getTileIndex(x,y)].color != tile.color)
m_mustUpdate = true;
m_tiles[getTileIndex(x,y)] = tile;
}
void Minimap::init()
{
}
void Minimap::terminate()
{
clean();
}
void Minimap::clean()
{
for(int i=0;i<=Otc::MAX_Z;++i)
m_tileBlocks[i].clear();
}
void Minimap::draw(const Rect& screenRect, const Position& mapCenter, float scale, const Color& color)
{
if(screenRect.isEmpty())
return;
Rect mapRect = calcMapRect(screenRect, mapCenter, scale);
g_painter->saveState();
g_painter->setColor(color);
g_painter->drawFilledRect(screenRect);
g_painter->resetColor();
g_painter->setClipRect(screenRect);
if(MMBLOCK_SIZE*scale <= 1 || !mapCenter.isMapPosition()) {
g_painter->restoreSavedState();
return;
}
Point blockOff = getBlockOffset(mapRect.topLeft());
Point off = Point((mapRect.size() * scale).toPoint() - screenRect.size().toPoint())/2;
Point start = screenRect.topLeft() -(mapRect.topLeft() - blockOff)*scale - off;
for(int y = blockOff.y, ys = start.y;ys<screenRect.bottom();y += MMBLOCK_SIZE, ys += MMBLOCK_SIZE*scale) {
if(y < 0 || y >= 65536)
continue;
for(int x = blockOff.x, xs = start.x;xs<screenRect.right();x += MMBLOCK_SIZE, xs += MMBLOCK_SIZE*scale) {
if(x < 0 || x >= 65536)
continue;
Position blockPos(x, y, mapCenter.z);
if(!hasBlock(blockPos))
continue;
MinimapBlock& block = getBlock(Position(x, y, mapCenter.z));
block.update();
const TexturePtr& tex = block.getTexture();
if(tex) {
Rect src(0, 0, MMBLOCK_SIZE, MMBLOCK_SIZE);
Rect dest(Point(xs,ys), src.size() * scale);
tex->setSmooth(scale < 1.0f);
g_painter->drawTexturedRect(dest, tex, src);
}
//g_painter->drawBoundingRect(Rect(xs,ys, MMBLOCK_SIZE * scale, MMBLOCK_SIZE * scale));
}
}
g_painter->restoreSavedState();
}
Point Minimap::getTilePoint(const Position& pos, const Rect& screenRect, const Position& mapCenter, float scale)
{
if(screenRect.isEmpty() || pos.z != mapCenter.z)
return Point(-1,-1);
Rect mapRect = calcMapRect(screenRect, mapCenter, scale);
Point off = Point((mapRect.size() * scale).toPoint() - screenRect.size().toPoint())/2;
Point posoff = (Point(pos.x,pos.y) - mapRect.topLeft())*scale;
return posoff + screenRect.topLeft() - off + (Point(1,1)*scale)/2;
}
Position Minimap::getTilePosition(const Point& point, const Rect& screenRect, const Position& mapCenter, float scale)
{
if(screenRect.isEmpty())
return Position();
Rect mapRect = calcMapRect(screenRect, mapCenter, scale);
Point off = Point((mapRect.size() * scale).toPoint() - screenRect.size().toPoint())/2;
Point pos2d = (point - screenRect.topLeft() + off)/scale + mapRect.topLeft();
return Position(pos2d.x, pos2d.y, mapCenter.z);
}
Rect Minimap::getTileRect(const Position& pos, const Rect& screenRect, const Position& mapCenter, float scale)
{
if(screenRect.isEmpty() || pos.z != mapCenter.z)
return Rect();
int tileSize = 32 * scale;
Rect tileRect(0,0,tileSize, tileSize);
tileRect.moveCenter(getTilePoint(pos, screenRect, mapCenter, scale));
return tileRect;
}
Rect Minimap::calcMapRect(const Rect& screenRect, const Position& mapCenter, float scale)
{
int w = screenRect.width() / scale, h = std::ceil(screenRect.height() / scale);
Rect mapRect(0,0,w,h);
mapRect.moveCenter(Point(mapCenter.x, mapCenter.y));
return mapRect;
}
void Minimap::updateTile(const Position& pos, const TilePtr& tile)
{
MinimapTile minimapTile;
if(tile) {
minimapTile.color = tile->getMinimapColorByte();
minimapTile.flags |= MinimapTileWasSeen;
if(!tile->isWalkable(true))
minimapTile.flags |= MinimapTileNotWalkable;
if(!tile->isPathable())
minimapTile.flags |= MinimapTileNotPathable;
minimapTile.speed = std::min<int>((int)std::ceil(tile->getGroundSpeed() / 10.0f), 255);
}
if(minimapTile != MinimapTile()) {
MinimapBlock& block = getBlock(pos);
Point offsetPos = getBlockOffset(Point(pos.x, pos.y));
block.updateTile(pos.x - offsetPos.x, pos.y - offsetPos.y, minimapTile);
block.justSaw();
}
}
const MinimapTile& Minimap::getTile(const Position& pos)
{
static MinimapTile nulltile;
if(pos.z <= Otc::MAX_Z && hasBlock(pos)) {
MinimapBlock& block = getBlock(pos);
Point offsetPos = getBlockOffset(Point(pos.x, pos.y));
return block.getTile(pos.x - offsetPos.x, pos.y - offsetPos.y);
}
return nulltile;
}
bool Minimap::loadImage(const std::string& fileName, const Position& topLeft, float colorFactor)
{
if(colorFactor <= 0.01f)
colorFactor = 1.0f;
try {
ImagePtr image = Image::load(fileName);
uint8 waterc = Color::to8bit(std::string("#3300cc"));
// non pathable colors
Color nonPathableColors[] = {
std::string("#ffff00"), // yellow
};
// non walkable colors
Color nonWalkableColors[] = {
std::string("#000000"), // oil, black
std::string("#006600"), // trees, dark green
std::string("#ff3300"), // walls, red
std::string("#666666"), // mountain, grey
std::string("#ff6600"), // lava, orange
std::string("#00ff00"), // positon
std::string("#ccffff"), // ice, very light blue
};
for(int y=0;y<image->getHeight();++y) {
for(int x=0;x<image->getWidth();++x) {
Color color = *(uint32*)image->getPixel(x,y);
uint8 c = Color::to8bit(color * colorFactor);
int flags = 0;
if(c == waterc || color.a() == 0) {
flags |= MinimapTileNotWalkable;
c = 255; // alpha
}
if(flags != 0) {
for(Color &col : nonWalkableColors) {
if(col == color) {
flags |= MinimapTileNotWalkable;
break;
}
}
}
if(flags != 0) {
for(Color &col : nonPathableColors) {
if(col == color) {
flags |= MinimapTileNotPathable;
break;
}
}
}
if(c == 255)
continue;
Position pos(topLeft.x + x, topLeft.y + y, topLeft.z);
MinimapBlock& block = getBlock(pos);
Point offsetPos = getBlockOffset(Point(pos.x, pos.y));
MinimapTile& tile = block.getTile(pos.x - offsetPos.x, pos.y - offsetPos.y);
if(!(tile.flags & MinimapTileWasSeen)) {
tile.color = c;
tile.flags = flags;
block.mustUpdate();
}
}
}
return true;
} catch(stdext::exception& e) {
g_logger.error(stdext::format("failed to load OTMM minimap: %s", e.what()));
return false;
}
}
void Minimap::saveImage(const std::string& fileName, const Rect& mapRect)
{
//TODO
}
bool Minimap::loadOtmm(const std::string& fileName)
{
try {
FileStreamPtr fin = g_resources.openFile(fileName);
if(!fin)
stdext::throw_exception("unable to open file");
fin->cache();
uint32 signature = fin->getU32();
if(signature != OTMM_SIGNATURE)
stdext::throw_exception("invalid OTMM file");
uint16 start = fin->getU16();
uint16 version = fin->getU16();
fin->getU32(); // flags
switch(version) {
case 1: {
fin->getString(); // description
break;
}
default:
stdext::throw_exception("OTMM version not supported");
}
fin->seek(start);
uint blockSize = MMBLOCK_SIZE * MMBLOCK_SIZE * sizeof(MinimapTile);
std::vector<uchar> compressBuffer(compressBound(blockSize));
while(true) {
Position pos;
pos.x = fin->getU16();
pos.y = fin->getU16();
pos.z = fin->getU8();
// end of file
if(!pos.isValid())
break;
MinimapBlock& block = getBlock(pos);
ulong len = fin->getU16();
ulong destLen = blockSize;
fin->read(compressBuffer.data(), len);
int ret = uncompress((uchar*)&block.getTiles(), &destLen, compressBuffer.data(), len);
assert(ret == Z_OK);
assert(destLen == blockSize);
block.mustUpdate();
block.justSaw();
}
fin->close();
return true;
} catch(stdext::exception& e) {
g_logger.error(stdext::format("failed to load OTMM minimap: %s", e.what()));
return false;
}
}
void Minimap::saveOtmm(const std::string& fileName)
{
try {
stdext::timer saveTimer;
FileStreamPtr fin = g_resources.createFile(fileName);
fin->cache();
//TODO: compression flag with zlib
uint32 flags = 0;
// header
fin->addU32(OTMM_SIGNATURE);
fin->addU16(0); // data start, will be overwritten later
fin->addU16(OTMM_VERSION);
fin->addU32(flags);
// version 1 header
fin->addString("OTMM 1.0"); // description
// go back and rewrite where the map data starts
uint32 start = fin->tell();
fin->seek(4);
fin->addU16(start);
fin->seek(start);
uint blockSize = MMBLOCK_SIZE * MMBLOCK_SIZE * sizeof(MinimapTile);
std::vector<uchar> compressBuffer(compressBound(blockSize));
const int COMPRESS_LEVEL = 3;
for(uint8_t z = 0; z <= Otc::MAX_Z; ++z) {
for(auto& it : m_tileBlocks[z]) {
int index = it.first;
MinimapBlock& block = it.second;
if(!block.wasSeen())
continue;
Position pos = getIndexPosition(index, z);
fin->addU16(pos.x);
fin->addU16(pos.y);
fin->addU8(pos.z);
ulong len = blockSize;
int ret = compress2(compressBuffer.data(), &len, (uchar*)&block.getTiles(), blockSize, COMPRESS_LEVEL);
assert(ret == Z_OK);
fin->addU16(len);
fin->write(compressBuffer.data(), len);
}
}
// end of file
Position invalidPos;
fin->addU16(invalidPos.x);
fin->addU16(invalidPos.y);
fin->addU8(invalidPos.z);
fin->flush();
fin->close();
} catch(stdext::exception& e) {
g_logger.error(stdext::format("failed to save OTMM minimap: %s", e.what()));
}
}