crystal-of-rhylil/jni/match3/match3field.cpp

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#include "match3field.h"
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#include "../main_code.h"
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#include <algorithm>
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void TChipTemplateParams::Serialize(boost::property_tree::ptree& propertyTree)
{
std::string selectedShaderName = propertyTree.get<std::string>("SelectedShaderName");
std::string selectedTexName = propertyTree.get<std::string>("SelectedTexName");
std::string selectedNormTexName = propertyTree.get<std::string>("SelectedNormTexName");
std::string finishingTexName = propertyTree.get<std::string>("FinishingTexName");
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//SelectedRenderParams.ShaderName = selectedShaderName;
//SelectedRenderParams.TexName = selectedTexName;
//SelectedRenderParams.NormTexName = selectedNormTexName;
//SelectedRenderParams.Transparency = 1.f;
//
//FinishingRenderParams.ShaderName = "";
//FinishingRenderParams.TexName = finishingTexName;
//FinishingRenderParams.NormTexName = "";
//FinishingRenderParams.Transparency = 1.f;
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std::string selectedAnimFileName = propertyTree.get<std::string>("SelectedAnimFileName");
std::string finishingAnimFileName = propertyTree.get<std::string>("FinishingAnimFileName");
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auto px = SE::FileToPropertyTree(selectedAnimFileName);
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SelectedTemplateAnimObject.Serialize(*px);
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px = SE::FileToPropertyTree(finishingAnimFileName);
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FinishingTemplateAnimObject.Serialize(*px);
}
void TMatch3FieldParams::Serialize(boost::property_tree::ptree& propertyTree)
{
TChipTemplateParams chipTemplateParams;
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FieldWidth = propertyTree.get<size_t>("Match3Params.FieldWidth");
FieldHeight = propertyTree.get<size_t>("Match3Params.FieldHeight");
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CellWidth = propertyTree.get<float>("Match3Params.CellWidth");
CellHeight = propertyTree.get<float>("Match3Params.CellHeight");
ChipLowestSpeed = propertyTree.get<float>("Match3Params.ChipLowestSpeed");
ChipAcceleration = propertyTree.get<float>("Match3Params.ChipAcceleration");
ChipPositionEpsilon = propertyTree.get<float>("Match3Params.ChipPositionEpsilon");
ChipVelocityEpsilon = propertyTree.get<float>("Match3Params.ChipVelocityEpsilon");
ChipK = propertyTree.get<float>("Match3Params.ChipK");
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ChipMatchTime = propertyTree.get<size_t>("Match3Params.ChipMatchTime");
ChipTypeCount = propertyTree.get<size_t>("Match3Params.ChipTypeCount");
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BOOST_FOREACH(boost::property_tree::ptree::value_type &v, propertyTree.get_child("Match3Params.ChipList"))
{
boost::property_tree::ptree& p = v.second.get_child("");
chipTemplateParams.Serialize(p);
ChipTemplateParamsArr.push_back(chipTemplateParams);
}
}
int TChip::StaticAnimationIndex = 0;
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TChip::TChip(int chipType, SE::TRenderPairList::iterator renderPair, size_t vertexListShift, TChipState chipState)
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: ChipType(chipType)
, RenderPair(renderPair)
, VertexListShift(vertexListShift)
, ChipState(chipState)
, Velocity(0)
{
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AnimName = "test_anim"+SE::tostr(StaticAnimationIndex++);
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}
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TChip::~TChip()
{
}
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Eigen::Vector2f TChip::GetLeftBottomPos()
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{
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std::vector<Eigen::Vector3f>::iterator i = RenderPair->second.Vec3CoordArr[SE::CONST_STRING_POSITION_ATTRIB].begin() + VertexListShift;
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return Eigen::Vector2f((*i)[0], (*i)[1]);
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}
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void TChip::SetLeftBottomPos(Eigen::Vector2f newPos)
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{
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Eigen::Vector2f shift = newPos - GetLeftBottomPos();
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MoveLeftBottomPos(shift);
}
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void TChip::MoveLeftBottomPos(Eigen::Vector2f shift)
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{
for (int i=0; i<6; i++)
{
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*(RenderPair->second.Vec3CoordArr[SE::CONST_STRING_POSITION_ATTRIB].begin() + VertexListShift + i) += Eigen::Vector3f(shift, 0);
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}
}
TMatch3Logic::TMatch3Logic()
//: TemplateAnimObject(TRenderPairList::iterator(), 0, 1)
{
//TemplateAnimObject.Serialize(FileToPropertyTree("chip1_xml.xml"));
}
TMatch3Logic::~TMatch3Logic()
{
//Match3FieldParams.ChipTemplateParamsArr.clear();
}
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void TMatch3Logic::FillRandomChipMatrix(std::vector<SE::TRenderPairList::iterator> renderPairIteratorVector, Eigen::Vector2f leftBottomPos)
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{
RenderPairIteratorVector = renderPairIteratorVector;
LeftBottomPosField = leftBottomPos;
ChipTypeCount = Match3FieldParams.ChipTypeCount;
ChipMatrix.resize(Match3FieldParams.FieldWidth);
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for (size_t i = 0; i < Match3FieldParams.FieldWidth; ++i)
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{
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for (size_t j=0; j < Match3FieldParams.FieldHeight; ++j)
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{
int chipType = rand() % ChipTypeCount;
if (i == 0 && j == 6)
{
//AddChipToUp(i, chipType, GetExpectedLeftBottomPos(i, j), TChip::CS_LOCKED);
AddChipToUp(i, chipType, GetExpectedLeftBottomPos(i, j), TChip::CS_STANDBY);
}
else
{
AddChipToUp(i, chipType, GetExpectedLeftBottomPos(i, j), TChip::CS_STANDBY);
}
}
}
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std::vector<Eigen::Vector2i> chipList = GetAvailableMatchingChips();
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while (chipList.size() != 0)
{
UnmatchChips(chipList);
chipList = GetAvailableMatchingChips();
}
}
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Eigen::Vector2f TMatch3Logic::GetExpectedLeftBottomPos(size_t x, size_t y)
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{
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return LeftBottomPosField + Eigen::Vector2f(x*Match3FieldParams.CellWidth, y*Match3FieldParams.CellHeight);
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}
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void TMatch3Logic::StartAnimateChip(size_t x, size_t y)
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{
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SE::ResourceManager->HalibutAnimationManager.StartAnimation(ChipMatrix[x][y].AnimName);
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}
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void TMatch3Logic::StopAnimateChip(size_t x, size_t y)
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{
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SE::ResourceManager->HalibutAnimationManager.StopAnimation(ChipMatrix[x][y].AnimName);
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}
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bool TMatch3Logic::ChipIsLocked(Eigen::Vector2i chip)
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{
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return ChipMatrix[chip[0]][chip[1]].ChipState == TChip::CS_LOCKED;
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}
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bool TMatch3Logic::ChipIsFinishing(Eigen::Vector2i chip)
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{
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return ChipMatrix[chip[0]][chip[1]].ChipState == TChip::CS_FINISHING;
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}
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bool TMatch3Logic::ChipIsStable(Eigen::Vector2i chip)
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{
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return ChipMatrix[chip[0]][chip[1]].ChipState == TChip::CS_STANDBY ||
ChipMatrix[chip[0]][chip[1]].ChipState == TChip::CS_LOCKED;
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}
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bool TMatch3Logic::ChipCanBeSelected(Eigen::Vector2i chip)
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{
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if (ChipMatrix[chip[0]][chip[1]].ChipState != TChip::CS_STANDBY)
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{
return false;
}
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if (chip[1] == 0)
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{
return true;
}
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int i = chip[1] - 1;
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while (i >= 0 && ChipIsStable(Eigen::Vector2i(chip[0], i)) && !ChipIsLocked(Eigen::Vector2i(chip[0], i)))
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{
i--;
}
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if (i < 0 || ChipIsLocked(Eigen::Vector2i(chip[0], i)))
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{
return true;
}
return false;
}
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#if 0
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bool TMatch3Logic::ChipsCanBeSwapped(Eigen::Vector2i p1, Eigen::Vector2i p2)
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{
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float distance_x = static_cast<float>(p1[0] - p2[0]);
float distance_y = static_cast<float>(p1[1] - p2[1]);
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if ((((fabs(distance_x) == 1) && (fabs(distance_y) == 0))
|| ((fabs(distance_x) == 0) && (fabs(distance_y) == 1))) &&
ChipCanBeSelected(p1) &&
ChipCanBeSelected(p2))
{
return true;
}
return false;
}
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bool TMatch3Logic::ChipCanBeMatchedUp(Eigen::Vector2i chip)
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{
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if (chip[1] <= Match3FieldParams.FieldHeight - 3)
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{
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if ((ChipMatrix[chip[0]][chip[1]].ChipType == ChipMatrix[chip[0]][chip[1] + 1].ChipType)
&& (ChipMatrix[chip[0]][chip[1]].ChipType == ChipMatrix[chip[0]][chip[1] + 2].ChipType))
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{
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if (ChipMatrix[chip[0]][chip[1]].ChipState == TChip::CS_STANDBY &&
ChipMatrix[chip[0]][chip[1] + 1].ChipState == TChip::CS_STANDBY &&
ChipMatrix[chip[0]][chip[1] + 2].ChipState == TChip::CS_STANDBY)
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{
return true;
}
}
}
return false;
}
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bool TMatch3Logic::ChipCanBeMatchedDown(Eigen::Vector2i chip)
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{
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if (chip[1] >= 2)
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{
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if ((ChipMatrix[chip[0]][chip[1]].ChipType == ChipMatrix[chip[0]][chip[1] - 1].ChipType)
&& (ChipMatrix[chip[0]][chip[1]].ChipType == ChipMatrix[chip[0]][chip[1] - 2].ChipType))
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{
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if (ChipMatrix[chip[0]][chip[1]].ChipState == TChip::CS_STANDBY &&
ChipMatrix[chip[0]][chip[1] - 1].ChipState == TChip::CS_STANDBY &&
ChipMatrix[chip[0]][chip[1] - 2].ChipState == TChip::CS_STANDBY)
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{
return true;
}
}
}
return false;
}
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bool TMatch3Logic::ChipCanBeMatchedLeft(Eigen::Vector2i chip)
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{
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if (chip[0] >= 2)
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{
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if ((ChipMatrix[chip[0]][chip[1]].ChipType == ChipMatrix[chip[0] - 1][chip[1]].ChipType)
&& (ChipMatrix[chip[0]][chip[1]].ChipType == ChipMatrix[chip[0] - 2][chip[1]].ChipType))
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{
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if (ChipMatrix[chip[0]][chip[1]].ChipState == TChip::CS_STANDBY &&
ChipMatrix[chip[0] - 1][chip[1]].ChipState == TChip::CS_STANDBY &&
ChipMatrix[chip[0] - 2][chip[1]].ChipState == TChip::CS_STANDBY)
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{
return true;
}
}
}
return false;
}
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bool TMatch3Logic::ChipCanBeMatchedRight(Eigen::Vector2i chip)
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{
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if (chip[0] <= Match3FieldParams.FieldWidth - 3)
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{
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if ((ChipMatrix[chip[0]][chip[1]].ChipType == ChipMatrix[chip[0] + 1][chip[1]].ChipType)
&& (ChipMatrix[chip[0]][chip[1]].ChipType == ChipMatrix[chip[0] + 2][chip[1]].ChipType))
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{
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if (ChipMatrix[chip[0]][chip[1]].ChipState == TChip::CS_STANDBY &&
ChipMatrix[chip[0] + 1][chip[1]].ChipState == TChip::CS_STANDBY &&
ChipMatrix[chip[0] + 2][chip[1]].ChipState == TChip::CS_STANDBY)
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{
return true;
}
}
}
return false;
}
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void TMatch3Logic::UnmatchChips(std::vector<Eigen::Vector2i> chipList)
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{
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std::vector<Eigen::Vector2i>::iterator i;
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for (i = chipList.begin(); i != chipList.end(); ++i)
{
ChangeChipType(*i);
}
}
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void TMatch3Logic::ReplaceAnimation(Eigen::Vector2i p)
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{
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TChip& chip = ChipMatrix[p[0]][p[1]];
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if (ResourceManager->HalibutAnimationManager.AnimationExists(chip.AnimName))
{
ResourceManager->HalibutAnimationManager.ReplaceAnimationObject(chip.AnimName, chip.RenderPair, chip.VertexListShift / 6);
}
else
{
THalibutExternalAnimObject testAnimObject(Match3FieldParams.ChipTemplateParamsArr[chip.ChipType].SelectedTemplateAnimObject);
testAnimObject.ReplaceAnimObject(chip.RenderPair, chip.VertexListShift / 6);
ResourceManager->HalibutAnimationManager.AddAnimationObject(chip.AnimName, testAnimObject);
}
ResourceManager->HalibutAnimationManager.StopAnimation(chip.AnimName);
}
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void TMatch3Logic::MoveVertexListShiftBack(TRenderPairList::iterator renderPairItr, size_t moveFrom)
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{
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for (size_t i = 0; i < ChipMatrix.size(); i++)
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{
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for (size_t j = 0; j < ChipMatrix[i].size(); j++)
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{
if (ChipMatrix[i][j].RenderPair == renderPairItr)
{
if (ChipMatrix[i][j].VertexListShift > moveFrom)
{
ChipMatrix[i][j].VertexListShift -= 6;
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ReplaceAnimation(Eigen::Vector2i(i, j));
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}
}
}
}
}
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void TMatch3Logic::AddChipToUp(size_t colNum, int chipType, Eigen::Vector2f spawnPos, TChip::TChipState chipState)
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{
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size_t yPos = ChipMatrix[colNum].size();
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Eigen::Vector2f posFrom = spawnPos;
Eigen::Vector2f posTo = posFrom + Eigen::Vector2f(Match3FieldParams.CellWidth, Match3FieldParams.CellHeight);
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size_t renderPairIndex;
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if (chipState == TChip::CS_LOCKED)
{
renderPairIndex = chipType + Match3FieldParams.ChipTypeCount;
}
else
{
renderPairIndex = chipType;
}
TTriangleList& triangleList = RenderPairIteratorVector[renderPairIndex]->second;
std::vector<vec3> vertexCoordArr = MakeVertexCoordVec(posFrom, posTo);
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std::vector<Eigen::Vector2f> texCoordArr = MakeTexCoordVec();
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triangleList.Vec3CoordArr[CONST_STRING_POSITION_ATTRIB].insert(triangleList.Vec3CoordArr[CONST_STRING_POSITION_ATTRIB].end(), vertexCoordArr.begin(), vertexCoordArr.end());
triangleList.Vec2CoordArr[CONST_STRING_TEXCOORD_ATTRIB].insert(triangleList.Vec2CoordArr[CONST_STRING_TEXCOORD_ATTRIB].end(), texCoordArr.begin(), texCoordArr.end());
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size_t vertexListShift = RenderPairIteratorVector[renderPairIndex]->second.Vec3CoordArr[CONST_STRING_POSITION_ATTRIB].size()-6;
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ChipMatrix[colNum].push_back(TChip(chipType, RenderPairIteratorVector[renderPairIndex], vertexListShift, chipState));
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ReplaceAnimation(Eigen::Vector2i(colNum, yPos));
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triangleList.NeedRefreshBuffer = true;
}
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void TMatch3Logic::InsertEmptyChip(size_t colNum, size_t rowNum, int chipType)
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{
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Eigen::Vector2f posFrom = GetExpectedLeftBottomPos(colNum, rowNum);
Eigen::Vector2f posTo = posFrom + Eigen::Vector2f(Match3FieldParams.CellWidth, Match3FieldParams.CellHeight);
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size_t renderPairIndex = Match3FieldParams.ChipTypeCount * 2 + chipType;
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TChip::TChipState chipState = TChip::CS_X;
TTriangleList& triangleList = RenderPairIteratorVector[renderPairIndex]->second;
std::vector<vec3> vertexCoordArr = MakeVertexCoordVec(posFrom, posTo);
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std::vector<Eigen::Vector2f> texCoordArr = MakeTexCoordVec();
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triangleList.Vec3CoordArr[CONST_STRING_POSITION_ATTRIB].insert(triangleList.Vec3CoordArr[CONST_STRING_POSITION_ATTRIB].end(), vertexCoordArr.begin(), vertexCoordArr.end());
triangleList.Vec2CoordArr[CONST_STRING_TEXCOORD_ATTRIB].insert(triangleList.Vec2CoordArr[CONST_STRING_TEXCOORD_ATTRIB].end(), texCoordArr.begin(), texCoordArr.end());
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size_t vertexListShift = RenderPairIteratorVector[renderPairIndex]->second.Vec3CoordArr[CONST_STRING_POSITION_ATTRIB].size()-6;
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ChipMatrix[colNum].insert(ChipMatrix[colNum].begin() + rowNum, TChip(chipType, RenderPairIteratorVector[renderPairIndex], vertexListShift, chipState));
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ReplaceAnimation(Eigen::Vector2i(colNum, rowNum));
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triangleList.NeedRefreshBuffer = true;
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Eigen::Vector2f pos = GetExpectedLeftBottomPos(colNum, rowNum);
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ChipDeletingVector.push_back(TChipDeletingData(Eigen::Vector2i(colNum, rowNum), pos));
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}
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void TMatch3Logic::UpdateChipSwapping(size_t dt)
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{
std::vector<TChipSwappingPair>::iterator i = ChipSwappingPairVector.begin();
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std::vector<std::pair<Eigen::Vector2i, Eigen::Vector2i> > chipsToSwapAgain;
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while (i != ChipSwappingPairVector.end())
{
i->T += dt / static_cast<float>(Match3FieldParams.ChipMatchTime);
if (i->T >= 1.f)
{
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Eigen::Vector2i chip1pos = i->Chip1;
Eigen::Vector2i chip2pos = i->Chip2;
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bool isReturning = i->IsReturning;
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TChip& chip1 = ChipMatrix[chip1pos[0]][chip1pos[1]];
TChip& chip2 = ChipMatrix[chip2pos[0]][chip2pos[1]];
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TChip c = chip1;
chip1 = chip2;
chip2 = c;
ResetChipPos(chip1pos);
ResetChipPos(chip2pos);
chip1.ChipState = TChip::CS_STANDBY;
chip2.ChipState = TChip::CS_STANDBY;
i = ChipSwappingPairVector.erase(i);
//Check if chips do
if (!isReturning)
{
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std::vector<Eigen::Vector2i> matchingChipList = GetAvailableMatchingChips();
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if (matchingChipList.size() == 0)
{
//SwapChips(chip1pos, chip2pos);
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chipsToSwapAgain.push_back(std::pair<Eigen::Vector2i, Eigen::Vector2i>(chip1pos, chip2pos));
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}
}
}
else
{
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TChip& chip1 = ChipMatrix[i->Chip1[0]][i->Chip1[1]];
TChip& chip2 = ChipMatrix[i->Chip2[0]][i->Chip2[1]];
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vec3 newPosChip1 = vec3(i->Chip1RealPosFrom + (i->Chip2RealPosFrom - i->Chip1RealPosFrom) * i->T, 0);
vec3 newPosChip2 = vec3(i->Chip2RealPosFrom + (i->Chip1RealPosFrom - i->Chip2RealPosFrom) * i->T, 0);
vec3 shiftChip1 = newPosChip1 - chip1.RenderPair->second.Vec3CoordArr[CONST_STRING_POSITION_ATTRIB][chip1.VertexListShift];
vec3 shiftChip2 = newPosChip2 - chip2.RenderPair->second.Vec3CoordArr[CONST_STRING_POSITION_ATTRIB][chip2.VertexListShift];
for (int k = 0; k < 6; k++)
{
chip1.RenderPair->second.Vec3CoordArr[CONST_STRING_POSITION_ATTRIB][chip1.VertexListShift + k] += shiftChip1;
chip2.RenderPair->second.Vec3CoordArr[CONST_STRING_POSITION_ATTRIB][chip2.VertexListShift + k] += shiftChip2;
}
chip1.RenderPair->second.NeedRefreshBuffer = true;
chip2.RenderPair->second.NeedRefreshBuffer = true;
}
if (i != ChipSwappingPairVector.end())
{
++i;
}
}
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std::vector<std::pair<Eigen::Vector2i, Eigen::Vector2i> >::iterator pairVecItr;
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for (pairVecItr = chipsToSwapAgain.begin(); pairVecItr != chipsToSwapAgain.end(); ++pairVecItr)
{
SwapChips(pairVecItr->first, pairVecItr->second, true);
}
}
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void TMatch3Logic::UpdateChipPosition(size_t dt)
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{
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for (size_t i=0; i<ChipMatrix.size(); i++)
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{
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for (size_t j=1; j<ChipMatrix[i].size(); j++)
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{
TChip& chip = ChipMatrix[i][j];
TChip& chipBelow = ChipMatrix[i][j-1];
if (chipBelow.ChipState == TChip::CS_FINISHING)
{
if (chip.ChipState != TChip::CS_LOCKED && chip.ChipState != TChip::CS_FINISHING && chip.ChipState != TChip::CS_X)
{
TChip c = chip;
chip = chipBelow;
chipBelow = c;
chipBelow.ChipState = TChip::CS_FALLING;
}
}
}
}
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for (size_t i=0; i<ChipMatrix.size(); i++)
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{
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for (size_t j=0; j<ChipMatrix[i].size(); j++)
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{
TChip& chip = ChipMatrix[i][j];
if (chip.ChipState == TChip::CS_FALLING)
{
chip.Velocity += Match3FieldParams.ChipAcceleration * dt;
if (chip.Velocity < Match3FieldParams.ChipLowestSpeed)
{
chip.Velocity = Match3FieldParams.ChipLowestSpeed;
}
float yShift = chip.Velocity * dt;
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chip.MoveLeftBottomPos(Eigen::Vector2f(0, yShift));
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Eigen::Vector2f expectedPos = GetExpectedLeftBottomPos(i, j);
Eigen::Vector2f realPos = chip.GetLeftBottomPos();
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if (realPos[1] < expectedPos[1] && chip.Velocity <= 0 && !(j > 0 && ChipIsFinishing(Eigen::Vector2i(i, j-1))))
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{
chip.Velocity = -chip.Velocity * Match3FieldParams.ChipK;
chip.SetLeftBottomPos(GetExpectedLeftBottomPos(i, j));
}
if (fabs(chip.Velocity) <= Match3FieldParams.ChipVelocityEpsilon)
{
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if (fabs(expectedPos[0] - realPos[0]) <= Match3FieldParams.ChipPositionEpsilon &&
fabs(expectedPos[1] - realPos[1]) <= Match3FieldParams.ChipPositionEpsilon
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)
{
chip.ChipState = TChip::CS_STANDBY;
chip.SetLeftBottomPos(GetExpectedLeftBottomPos(i, j));
chip.Velocity = 0.f;
}
}
chip.RenderPair->second.NeedRefreshBuffer = true;
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for (size_t k = j + 1; k < ChipMatrix[i].size(); k++)
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{
TChip& chipAbove = ChipMatrix[i][k];
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Eigen::Vector2f posAbove = chipAbove.GetLeftBottomPos();
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if (chipAbove.GetLeftBottomPos()[1] - chip.GetLeftBottomPos()[1] < Match3FieldParams.CellHeight)
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{
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if (!ChipIsLocked(Eigen::Vector2i(i, k)) && !ChipIsFinishing(Eigen::Vector2i(i, k)))
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{
chipAbove.ChipState = TChip::CS_FALLING;
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chipAbove.SetLeftBottomPos(chip.GetLeftBottomPos() + Eigen::Vector2f(0, Match3FieldParams.CellHeight));
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chipAbove.Velocity = chip.Velocity;
chipAbove.RenderPair->second.NeedRefreshBuffer = true;
}
}
}
}
}
}
}
void TMatch3Logic::RemoveBubbles()
{
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size_t max_y = ChipMatrix.size()-1;
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for (size_t i=0; i < ChipMatrix[max_y].size(); i++)
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{
if (ChipMatrix[i][max_y].ChipState == TChip::CS_FINISHING)
{
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DestroyChip(Eigen::Vector2i(i, max_y));
AddChipToUp(i, rand() % ChipTypeCount, GetExpectedLeftBottomPos(i, ChipMatrix[i].size())+Eigen::Vector2f(0, Match3FieldParams.CellHeight));
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}
}
}
void TMatch3Logic::TryMatchAllChips()
{
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std::vector<Eigen::Vector2i> matchingChips = GetAvailableMatchingChips();
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std::vector<Eigen::Vector2i>::iterator i;
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for (i = matchingChips.begin(); i != matchingChips.end(); ++i)
{
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Eigen::Vector2i p = *i;
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int chipType = ChipMatrix[p[0]][p[1]].ChipType;
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DestroyChip(p);
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InsertEmptyChip(p[0], p[1], chipType);
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}
}
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void TMatch3Logic::DestroyChip(Eigen::Vector2i p)
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{
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ChipMatrix[p[0]][p[1]].RenderPair->second.NeedRefreshBuffer = true;
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ResourceManager->HalibutAnimationManager.DeleteAnimationObject(ChipMatrix[p[0]][p[1]].AnimName);
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ChipMatrix[p[0]][p[1]].RenderPair->second.Vec3CoordArr[CONST_STRING_POSITION_ATTRIB].erase(
ChipMatrix[p[0]][p[1]].RenderPair->second.Vec3CoordArr[CONST_STRING_POSITION_ATTRIB].begin() + ChipMatrix[p[0]][p[1]].VertexListShift,
ChipMatrix[p[0]][p[1]].RenderPair->second.Vec3CoordArr[CONST_STRING_POSITION_ATTRIB].begin() + ChipMatrix[p[0]][p[1]].VertexListShift + 6);
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ChipMatrix[p[0]][p[1]].RenderPair->second.Vec2CoordArr[CONST_STRING_TEXCOORD_ATTRIB].erase(
ChipMatrix[p[0]][p[1]].RenderPair->second.Vec2CoordArr[CONST_STRING_TEXCOORD_ATTRIB].begin() + ChipMatrix[p[0]][p[1]].VertexListShift,
ChipMatrix[p[0]][p[1]].RenderPair->second.Vec2CoordArr[CONST_STRING_TEXCOORD_ATTRIB].begin() + ChipMatrix[p[0]][p[1]].VertexListShift + 6);
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MoveVertexListShiftBack(ChipMatrix[p[0]][p[1]].RenderPair, ChipMatrix[p[0]][p[1]].VertexListShift);
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ChipMatrix[p[0]].erase(ChipMatrix[p[0]].begin() + p[1]);
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/*
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for (size_t i=p[1]; i < ChipMatrix[p[0]].size(); i++)
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{
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if (!ChipIsLocked(Eigen::Vector2i(p[0], i)) && !ChipIsFinishing(Eigen::Vector2i(p[0], i)))
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{
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ChipMatrix[p[0]][i].ChipState = TChip::CS_FALLING;
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}
}*/
}
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void TMatch3Logic::ChangeChipType(Eigen::Vector2i p)
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{
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size_t newChipType = rand() % ChipTypeCount;
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TChip& chip = ChipMatrix[p[0]][p[1]];
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std::vector<vec3>::iterator vertexCoordItrBegin = chip.RenderPair->second.Vec3CoordArr[CONST_STRING_POSITION_ATTRIB].begin() + chip.VertexListShift;
std::vector<vec3>::iterator vertexCoordItrEnd = vertexCoordItrBegin + 6;
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std::vector<Eigen::Vector2f>::iterator texCoordItrBegin = chip.RenderPair->second.Vec2CoordArr[CONST_STRING_TEXCOORD_ATTRIB].begin() + chip.VertexListShift;
std::vector<Eigen::Vector2f>::iterator texCoordItrEnd = texCoordItrBegin + 6;
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std::vector<vec3> vertexCoordSubVec(vertexCoordItrBegin, vertexCoordItrEnd);
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std::vector<Eigen::Vector2f> texCoordSubVec(texCoordItrBegin, texCoordItrEnd);
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chip.RenderPair->second.Vec3CoordArr[CONST_STRING_POSITION_ATTRIB].erase(vertexCoordItrBegin, vertexCoordItrEnd);
chip.RenderPair->second.Vec2CoordArr[CONST_STRING_TEXCOORD_ATTRIB].erase(texCoordItrBegin, texCoordItrEnd);
MoveVertexListShiftBack(chip.RenderPair, chip.VertexListShift);
chip.RenderPair->second.NeedRefreshBuffer = true;
chip.ChipType = newChipType;
RenderPairIteratorVector[newChipType]->second.Vec3CoordArr[CONST_STRING_POSITION_ATTRIB].insert(RenderPairIteratorVector[newChipType]->second.Vec3CoordArr[CONST_STRING_POSITION_ATTRIB].end(), vertexCoordSubVec.begin(), vertexCoordSubVec.end());
RenderPairIteratorVector[newChipType]->second.Vec2CoordArr[CONST_STRING_TEXCOORD_ATTRIB].insert(RenderPairIteratorVector[newChipType]->second.Vec2CoordArr[CONST_STRING_TEXCOORD_ATTRIB].end(), texCoordSubVec.begin(), texCoordSubVec.end());
RenderPairIteratorVector[newChipType]->second.NeedRefreshBuffer = true;
chip.RenderPair = RenderPairIteratorVector[newChipType];
chip.VertexListShift = RenderPairIteratorVector[newChipType]->second.Vec3CoordArr[CONST_STRING_POSITION_ATTRIB].size() - 6;
//Hack to make sure animation is replaced by new one
ResourceManager->HalibutAnimationManager.DeleteAnimationObject(chip.AnimName);
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ReplaceAnimation(Eigen::Vector2i(p[0], p[1]));
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}
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void TMatch3Logic::SelectChip(Eigen::Vector2i pos)
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{
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if (!(selectedChip == Eigen::Vector2i(-1, -1)))
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{
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StopAnimateChip(selectedChip[0], selectedChip[1]);
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}
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StartAnimateChip(pos[0], pos[1]);
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selectedChip = pos;
}
void TMatch3Logic::UnselectChip()
{
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if (!(selectedChip == Eigen::Vector2i(-1, -1)))
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{
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StopAnimateChip(selectedChip[0], selectedChip[1]);
selectedChip = Eigen::Vector2i(-1, -1);
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}
}
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Eigen::Vector2i TMatch3Logic::GetSelectedChip()
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{
return selectedChip;
}
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std::vector<Eigen::Vector2i> TMatch3Logic::GetAvailableMatchingChips()
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{
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std::vector<Eigen::Vector2i> result;
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for (size_t x=0; x<Match3FieldParams.FieldWidth; x++)
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{
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for (size_t y=0; y<Match3FieldParams.FieldHeight; y++)
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{
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Eigen::Vector2i chip = Eigen::Vector2i(x, y);
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if (ChipCanBeMatchedUp(chip))
{
if (std::find(result.begin(), result.end(), chip) == result.end())
{
result.push_back(chip);
}
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if (std::find(result.begin(), result.end(), chip + Eigen::Vector2i(0, 1)) == result.end())
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{
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result.push_back(chip + Eigen::Vector2i(0, 1));
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}
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if (std::find(result.begin(), result.end(), chip + Eigen::Vector2i(0, 2)) == result.end())
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{
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result.push_back(chip + Eigen::Vector2i(0, 2));
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}
}
if (ChipCanBeMatchedDown(chip))
{
if (std::find(result.begin(), result.end(), chip) == result.end())
{
result.push_back(chip);
}
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if (std::find(result.begin(), result.end(), chip - Eigen::Vector2i(0, 1)) == result.end())
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{
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result.push_back(chip - Eigen::Vector2i(0, 1));
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}
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if (std::find(result.begin(), result.end(), chip - Eigen::Vector2i(0, 2)) == result.end())
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{
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result.push_back(chip - Eigen::Vector2i(0, 2));
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}
}
if (ChipCanBeMatchedLeft(chip))
{
if (std::find(result.begin(), result.end(), chip) == result.end())
{
result.push_back(chip);
}
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if (std::find(result.begin(), result.end(), chip - Eigen::Vector2i(1, 0)) == result.end())
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{
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result.push_back(chip - Eigen::Vector2i(1, 0));
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}
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if (std::find(result.begin(), result.end(), chip - Eigen::Vector2i(2, 0)) == result.end())
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{
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result.push_back(chip - Eigen::Vector2i(2, 0));
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}
}
if (ChipCanBeMatchedRight(chip))
{
if (std::find(result.begin(), result.end(), chip) == result.end())
{
result.push_back(chip);
}
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if (std::find(result.begin(), result.end(), chip + Eigen::Vector2i(1, 0)) == result.end())
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{
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result.push_back(chip + Eigen::Vector2i(1, 0));
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}
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if (std::find(result.begin(), result.end(), chip + Eigen::Vector2i(2, 0)) == result.end())
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{
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result.push_back(chip + Eigen::Vector2i(2, 0));
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}
}
}
}
return result;
}
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void TMatch3Logic::SwapChips(Eigen::Vector2i p1, Eigen::Vector2i p2, bool isReturning)
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{
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Eigen::Vector2f chip1PosFrom(LeftBottomPosField[0] + p1[0]*Match3FieldParams.CellWidth, LeftBottomPosField[1] + p1[1]*Match3FieldParams.CellHeight);
Eigen::Vector2f chip2PosFrom(LeftBottomPosField[0] + p2[0]*Match3FieldParams.CellWidth, LeftBottomPosField[1] + p2[1]*Match3FieldParams.CellHeight);
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ChipSwappingPairVector.push_back(TChipSwappingPair(p1, p2, chip1PosFrom, chip2PosFrom));
(ChipSwappingPairVector.end() - 1)->IsReturning = isReturning;
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ChipMatrix[p1[0]][p1[1]].ChipState = TChip::CS_SWAPPING;
ChipMatrix[p2[0]][p2[1]].ChipState = TChip::CS_SWAPPING;
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}
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void TMatch3Logic::ResetChipPos(Eigen::Vector2i p)
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{
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Eigen::Vector2f posFrom(LeftBottomPosField[0] + p[0]*Match3FieldParams.CellWidth, LeftBottomPosField[1] + p[1]*Match3FieldParams.CellHeight);
Eigen::Vector2f posTo(LeftBottomPosField[0] + (p[0] + 1)*Match3FieldParams.CellWidth, LeftBottomPosField[1] + (p[1] + 1)*Match3FieldParams.CellHeight);
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std::vector<vec3> vertexCoordVec = MakeVertexCoordVec(posFrom, posTo);
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TChip& chip = ChipMatrix[p[0]][p[1]];
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for (size_t i = 0; i<vertexCoordVec.size(); i++)
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{
chip.RenderPair->second.Vec3CoordArr[CONST_STRING_POSITION_ATTRIB][chip.VertexListShift + i] = vertexCoordVec[i];
}
chip.RenderPair->second.NeedRefreshBuffer = true;
}
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void TMatch3Logic::UpdateLogic(size_t dt)
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{
if (dt > 1000)
{
dt = 1000; //To prevent float overflow during looong laaaag
}
UpdateChipSwapping(dt);
UpdateChipPosition(dt);
TryMatchAllChips();
std::vector<TChipDeletingData>::iterator i;
bool erased = false;
for (i = ChipDeletingVector.begin(); i != ChipDeletingVector.end();)
{
erased = false;
i->T += dt / 150.f;
if (i->T > 1.f)
{
i->T = 1.f;
}
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Eigen::Vector2i p = i->Chip;
Eigen::Vector2f leftBottomPos = i->Pos;
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Eigen::Vector2f halfPos = Eigen::Vector2f(Match3FieldParams.CellWidth / 2.f, Match3FieldParams.CellHeight / 2.f);
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Eigen::Vector2f centerPos = leftBottomPos + halfPos;
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std::vector<vec3> vertexCoordArr = MakeVertexCoordVec(centerPos - (1.f - i->T)*halfPos, centerPos + (1.f - i->T)*halfPos);
for (int t = 0; t < 6; t++)
{
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ChipMatrix[p[0]][p[1]].RenderPair->second.Vec3CoordArr[CONST_STRING_POSITION_ATTRIB][ChipMatrix[p[0]][p[1]].VertexListShift + t] = vertexCoordArr[t];
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}
if (i->T == 1.f)
{
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ChipMatrix[p[0]][p[1]].ChipState = TChip::CS_FINISHING;
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i = ChipDeletingVector.erase(i);
erased = true;
}
if (i != ChipDeletingVector.end() && !erased)
{
++i;
}
}
RemoveBubbles();
}
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void TMatch3Logic::HitFieldWithPattern(Eigen::Vector2i pos, std::vector<std::vector<char> > pattern, std::vector<std::vector<char> > jumpingPattern)
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{
const float CONST_VELOCITY_TO_ADD = 0.2f;
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for (size_t i = 0; i < pattern.size(); i++)
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{
for (int j = static_cast<int>(pattern[i].size()-1); j >=0; j--)
{
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Eigen::Vector2i fieldPos = pos + Eigen::Vector2i(i,j);
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if (fieldPos[0] >= 0 && fieldPos[0] < static_cast<int>(ChipMatrix.size()) &&
fieldPos[1] >= 0 && fieldPos[1] < static_cast<int>(ChipMatrix[fieldPos[0]].size()))
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{
if (ChipIsStable(fieldPos))
{
if (pattern[i][j] > 0)
{
DestroyChip(fieldPos);
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InsertEmptyChip(fieldPos[0], fieldPos[1], 0);
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}
}
if (ChipIsLocked(fieldPos))
{
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ChipMatrix[fieldPos[0]][fieldPos[1]].ChipState = TChip::CS_STANDBY;
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}
}
}
}
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for (size_t i = 0; i < jumpingPattern.size(); i++)
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{
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Eigen::Vector2i abovePos = pos + Eigen::Vector2i(i, jumpingPattern[i].size());
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if (abovePos[0] >= 0 && abovePos[0] < static_cast<int>(ChipMatrix.size()) &&
abovePos[1] >= 0 && abovePos[1] < static_cast<int>(ChipMatrix[i].size()))
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{
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if (ChipMatrix[abovePos[0]][abovePos[1]].ChipState == TChip::CS_FALLING ||
ChipMatrix[abovePos[0]][abovePos[1]].ChipState == TChip::CS_STANDBY)
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{
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ChipMatrix[abovePos[0]][abovePos[1]].ChipState = TChip::CS_FALLING;
ChipMatrix[abovePos[0]][abovePos[1]].Velocity += CONST_VELOCITY_TO_ADD;
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}
}
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for (size_t j = 0; j < jumpingPattern[i].size(); j++)
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{
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Eigen::Vector2i fieldPos = pos + Eigen::Vector2i(i,j);
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if (fieldPos[0] >= 0 && fieldPos[0] < static_cast<int>(ChipMatrix.size()) &&
fieldPos[1] >= 0 && fieldPos[1] < static_cast<int>(ChipMatrix[fieldPos[0]].size()))
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{
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if (ChipMatrix[fieldPos[0]][fieldPos[1]].ChipState == TChip::CS_FALLING ||
ChipMatrix[fieldPos[0]][fieldPos[1]].ChipState == TChip::CS_STANDBY)
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{
if (jumpingPattern[i][j] > 0)
{
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ChipMatrix[fieldPos[0]][fieldPos[1]].ChipState = TChip::CS_FALLING;
ChipMatrix[fieldPos[0]][fieldPos[1]].Velocity += CONST_VELOCITY_TO_ADD;
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}
}
}
}
}
}
//================================================
//============ TMatch3Field ======================
//================================================
TMatch3Field::TMatch3Field()
{
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LastTappedPos = Eigen::Vector2f(0,0);
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}
TMatch3Field::TMatch3Field(const TMatch3Field& m)
{
LastTappedPos = m.LastTappedPos;
LastMovePos = m.LastMovePos;
}
TMatch3Field& TMatch3Field::operator=(const TMatch3Field& m)
{
LastTappedPos = m.LastTappedPos;
LastMovePos = m.LastMovePos;
return *this;
}
TMatch3Field::TMatch3Field(TMatch3Controller& match3Controller)
//: Match3Controller(match3Controller)
{
//Match3Controller.Match3Field = this;
FillBasicChipMatrixAndTriangleList();
}
TMatch3Field::~TMatch3Field()
{
}
void TMatch3Field::FillBasicChipMatrixAndTriangleList()
{
TRenderParams renderParams;
renderParams.Transparency = 1.f;
boost::shared_ptr<boost::property_tree::ptree> px(FileToPropertyTree("match3params.xml"));
Match3FieldParams.Serialize(*px);
std::vector<TRenderPairList::iterator> triangleListVec;
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for (size_t i = 0; i < Match3FieldParams.ChipTypeCount; i++)
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{
TriangleListVector.push_back(TRenderPair(Match3FieldParams.ChipTemplateParamsArr[i].SelectedRenderParams, TTriangleList()));
}
renderParams.TexName = "chip1locked";
TriangleListVector.push_back(TRenderPair(renderParams, TTriangleList()));
renderParams.TexName = "chip2locked";
TriangleListVector.push_back(TRenderPair(renderParams, TTriangleList()));
renderParams.TexName = "chip3locked";
TriangleListVector.push_back(TRenderPair(renderParams, TTriangleList()));
renderParams.TexName = "chip4locked";
TriangleListVector.push_back(TRenderPair(renderParams, TTriangleList()));
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for (size_t i = 0; i < Match3FieldParams.ChipTypeCount; i++)
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{
TriangleListVector.push_back(TRenderPair(Match3FieldParams.ChipTemplateParamsArr[i].FinishingRenderParams, TTriangleList()));
}
for (TRenderPairList::iterator i = TriangleListVector.begin(); i != TriangleListVector.end(); ++i)
{
triangleListVec.push_back(i);
}
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LeftBottomPos = Eigen::Vector2f(150, 0);
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FillRandomChipMatrix(triangleListVec, LeftBottomPos);
//Init everything
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selectedChip = Eigen::Vector2i(-1, -1);
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for (TRenderPairList::iterator i = TriangleListVector.begin(); i != TriangleListVector.end(); ++i)
{
i->second.RefreshBuffer();
}
}
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Eigen::Vector2i TMatch3Field::PosToChip(Eigen::Vector2f pos)
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{
int x, y;
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Eigen::Vector2f fieldPos = pos - LeftBottomPos;
x = static_cast<int>(fieldPos[0] / Match3FieldParams.CellWidth);
y = static_cast<int>(fieldPos[1] / Match3FieldParams.CellHeight);
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return Eigen::Vector2i(x, y);
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}
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void TMatch3Field::Update(size_t dt)
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{
TMatch3Logic::UpdateLogic(dt);
TRenderPairList::iterator i;
for (i = TriangleListVector.begin(); i != TriangleListVector.end(); ++i)
{
if (i->second.NeedRefreshBuffer)
{
i->second.RefreshBuffer();
}
}
int y = 6;
y = 6 + y;
}
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void TMatch3Field::OnTapDown(Eigen::Vector2f pos)
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{
//See also OnMove
LastTappedPos = pos;
LastMovePos = LastTappedPos;
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Eigen::Vector2i chip = PosToChip(pos);
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/*
To hit field by pattern
std::vector<std::vector<char> > pattern;
pattern.resize(3);
pattern[0].resize(3);
pattern[1].resize(3);
pattern[2].resize(3);
pattern[0][0] = 0; pattern[1][0] = 1; pattern[2][0] = 0;
pattern[0][1] = 1; pattern[1][1] = 1; pattern[2][1] = 1;
pattern[0][2] = 0; pattern[1][2] = 1; pattern[2][2] = 0;
std::vector<std::vector<char> > jumpingPattern;
jumpingPattern.resize(3);
jumpingPattern[0].resize(3);
jumpingPattern[1].resize(3);
jumpingPattern[2].resize(3);
jumpingPattern[0][0] = 0; jumpingPattern[1][0] = 0; jumpingPattern[2][0] = 0;
jumpingPattern[0][1] = 0; jumpingPattern[1][1] = 0; jumpingPattern[2][1] = 0;
jumpingPattern[0][2] = 1; jumpingPattern[1][2] = 0; jumpingPattern[2][2] = 1;
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HitFieldWithPattern(chip - Eigen::Vector2i(1, 1), pattern, jumpingPattern);
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return;*/
if (selectedChip == chip)
{
UnselectChip();
}
else
{
if (ChipsCanBeSwapped(selectedChip, chip))
{
SwapChips(selectedChip, chip);
UnselectChip();
}
else
{
if (ChipCanBeSelected(chip))
{
SelectChip(chip);
}
}
}
}
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void TMatch3Field::OnTapUp(Eigen::Vector2f pos)
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{
}
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void TMatch3Field::OnMove(Eigen::Vector2f shift)
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{
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if (selectedChip == Eigen::Vector2i(-1, -1))
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{
return;
}
LastMovePos += shift;
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if ((LastTappedPos - LastMovePos)[0] >= Match3FieldParams.CellWidth * 0.5f)
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{
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Eigen::Vector2i newPosChip = selectedChip + Eigen::Vector2i(1, 0);
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if (selectedChip[0] <= Match3FieldParams.FieldWidth - 2)
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{
if (ChipsCanBeSwapped(selectedChip, newPosChip))
{
SwapChips(selectedChip, newPosChip);
UnselectChip();
}
}
}
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else if ((LastMovePos - LastTappedPos)[0] >= Match3FieldParams.CellWidth * 0.5f)
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{
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Eigen::Vector2i newPosChip = selectedChip - Eigen::Vector2i(1, 0);
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if (selectedChip[0] >= 1)
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{
if (ChipsCanBeSwapped(selectedChip, newPosChip))
{
SwapChips(selectedChip, newPosChip);
UnselectChip();
}
}
}
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else if ((LastMovePos - LastTappedPos)[1] >= Match3FieldParams.CellHeight * 0.5f)
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{
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Eigen::Vector2i newPosChip = selectedChip + Eigen::Vector2i(0, 1);
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if (selectedChip[1] <= Match3FieldParams.FieldHeight - 2)
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{
if (ChipsCanBeSwapped(selectedChip, newPosChip))
{
SwapChips(selectedChip, newPosChip);
UnselectChip();
}
}
}
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else if ((LastTappedPos - LastMovePos)[1] >= Match3FieldParams.CellHeight * 0.5f)
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{
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Eigen::Vector2i newPosChip = selectedChip - Eigen::Vector2i(0, 1);
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if (selectedChip[1] >= 1)
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{
if (ChipsCanBeSwapped(selectedChip, newPosChip))
{
SwapChips(selectedChip, newPosChip);
UnselectChip();
}
}
}
}
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bool TMatch3Field::CheckClick(Eigen::Vector2f mousePos)
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{
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Eigen::Vector2f fieldPos = mousePos - LeftBottomPos;
if (fieldPos[0] >= 0 && fieldPos[0] <= Match3FieldParams.FieldWidth*Match3FieldParams.CellWidth)
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{
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if (fieldPos[1] >= 0 && fieldPos[1] <= Match3FieldParams.FieldHeight*Match3FieldParams.CellHeight)
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{
return true;
}
}
return false;
}
void TMatch3Field::HighlightMatch3()
{
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std::vector<Eigen::Vector2i> chips = GetAvailableMatchingChips();
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std::vector<Eigen::Vector2i>::iterator i;
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for (i = chips.begin(); i != chips.end(); ++i)
{
ResourceManager->HalibutAnimationManager.StartAnimation(ChipMatrix[i->v[0]][i->v[1]].AnimName);
}
}
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#endif