Optimize automatic automap to automap only around changes.

Should work, no flaws found when testing with grass_main
This commit is contained in:
Bojidar Marinov 2018-10-04 16:26:41 +03:00
parent c52a3c970e
commit 351fee2666
4 changed files with 99 additions and 35 deletions

View file

@ -72,6 +72,10 @@ void CAutoMapper::Load(const char* pTileName)
// new configuration, get the name
pLine++;
CConfiguration NewConf;
NewConf.m_StartX = 0;
NewConf.m_StartY = 0;
NewConf.m_EndX = 0;
NewConf.m_EndY = 0;
int ConfigurationID = m_lConfigs.add(NewConf);
pCurrentConf = &m_lConfigs[ConfigurationID];
str_copy(pCurrentConf->m_aName, pLine, str_length(pLine));
@ -254,6 +258,11 @@ void CAutoMapper::Load(const char* pTileName)
CPosRule NewPosRule = {x, y, Value, NewIndexList};
pCurrentIndex->m_aRules.add(NewPosRule);
pCurrentConf->m_StartX = min(pCurrentConf->m_StartX, NewPosRule.m_X);
pCurrentConf->m_StartY = min(pCurrentConf->m_StartY, NewPosRule.m_Y);
pCurrentConf->m_EndX = max(pCurrentConf->m_EndX, NewPosRule.m_X);
pCurrentConf->m_EndY = max(pCurrentConf->m_EndY, NewPosRule.m_Y);
if(x == 0 && y == 0) {
for(int i = 0; i < NewIndexList.size(); ++i)
{
@ -343,7 +352,63 @@ const char* CAutoMapper::GetConfigName(int Index)
return m_lConfigs[Index].m_aName;
}
void CAutoMapper::Proceed(CLayerTiles *pLayer, int ConfigID, int Seed)
void CAutoMapper::ProceedLocalized(CLayerTiles *pLayer, int ConfigID, int Seed, int X, int Y, int Width, int Height)
{
if(!m_FileLoaded || pLayer->m_Readonly || ConfigID < 0 || ConfigID >= m_lConfigs.size())
return;
if(Width < 0)
Width = pLayer->m_Width;
if(Height < 0)
Height = pLayer->m_Height;
CConfiguration *pConf = &m_lConfigs[ConfigID];
int CommitFromX = max(X + pConf->m_StartX, 0);
int CommitFromY = max(Y + pConf->m_StartY, 0);
int CommitToX = min(X + Width + pConf->m_EndX, pLayer->m_Width);
int CommitToY = min(Y + Height + pConf->m_EndY, pLayer->m_Height);
int UpdateFromX = max(X + 3 * pConf->m_StartX, 0);
int UpdateFromY = max(Y + 3 * pConf->m_StartY, 0);
int UpdateToX = min(X + Width + 3 * pConf->m_EndX, pLayer->m_Width);
int UpdateToY = min(Y + Height + 3 * pConf->m_EndY, pLayer->m_Height);
CLayerTiles *pUpdateLayer;
if (UpdateFromX != 0 || UpdateFromY != 0 || UpdateToX != pLayer->m_Width || UpdateToY != pLayer->m_Width)
{ // Needs a layer to work on
pUpdateLayer = new CLayerTiles(UpdateToX - UpdateFromX, UpdateToY - UpdateFromY);
for(int y = UpdateFromY; y < UpdateToY; y++) {
for(int x = UpdateFromX; x < UpdateToX; x++)
{
CTile *in = &pLayer->m_pTiles[y*pLayer->m_Width+x];
CTile *out = &pUpdateLayer->m_pTiles[(y-UpdateFromY)*pUpdateLayer->m_Width+x-UpdateFromX];
out->m_Index = in->m_Index;
out->m_Flags = in->m_Flags;
}
}
}
else
{
pUpdateLayer = pLayer;
}
Proceed(pUpdateLayer, ConfigID, Seed, UpdateFromX, UpdateFromY);
for(int y = CommitFromY; y < CommitToY; y++) {
for(int x = CommitFromX; x < CommitToX; x++)
{
CTile *in = &pUpdateLayer->m_pTiles[(y-UpdateFromY)*pUpdateLayer->m_Width+x-UpdateFromX];
CTile *out = &pLayer->m_pTiles[y*pLayer->m_Width+x];
out->m_Index = in->m_Index;
out->m_Flags = in->m_Flags;
}
}
}
void CAutoMapper::Proceed(CLayerTiles *pLayer, int ConfigID, int Seed, int SeedOffsetX, int SeedOffsetY)
{
if(!m_FileLoaded || pLayer->m_Readonly || ConfigID < 0 || ConfigID >= m_lConfigs.size())
return;
@ -362,15 +427,7 @@ void CAutoMapper::Proceed(CLayerTiles *pLayer, int ConfigID, int Seed)
if(pRun->m_AutomapCopy)
{
pReadLayer = new CLayerTiles(pLayer->m_Width, pLayer->m_Height);
}
else
{
pReadLayer = pLayer;
}
// copy tiles
if(pRun->m_AutomapCopy)
{
for(int y = 0; y < pLayer->m_Height; y++) {
for(int x = 0; x < pLayer->m_Width; x++)
{
@ -381,6 +438,10 @@ void CAutoMapper::Proceed(CLayerTiles *pLayer, int ConfigID, int Seed)
}
}
}
else
{
pReadLayer = pLayer;
}
// auto map
for(int y = 0; y < pLayer->m_Height; y++) {
@ -438,7 +499,7 @@ void CAutoMapper::Proceed(CLayerTiles *pLayer, int ConfigID, int Seed)
}
if(RespectRules &&
(pIndexRule->m_RandomProbability >= 1.0 || HashLocation(Seed, h, i, x, y) < HASH_MAX * pIndexRule->m_RandomProbability))
(pIndexRule->m_RandomProbability >= 1.0 || HashLocation(Seed, h, i, x + SeedOffsetX, y + SeedOffsetY) < HASH_MAX * pIndexRule->m_RandomProbability))
{
pTile->m_Index = pIndexRule->m_ID;
pTile->m_Flags = pIndexRule->m_Flag;

View file

@ -48,13 +48,19 @@ class CAutoMapper
{
array<CRun> m_aRuns;
char m_aName[128];
int m_StartX;
int m_StartY;
int m_EndX;
int m_EndY;
};
public:
CAutoMapper(class CEditor *pEditor);
void Load(const char* pTileName);
void Proceed(class CLayerTiles *pLayer, int ConfigID, int Seed=0);
void ProceedLocalized(class CLayerTiles *pLayer, int ConfigID, int Seed=0, int X=0, int Y=0, int Width=-1, int Height=-1);
void Proceed(class CLayerTiles *pLayer, int ConfigID, int Seed=0, int SeedOffsetX=0, int SeedOffsetY=0);
int ConfigNamesNum() const { return m_lConfigs.size(); }
const char* GetConfigName(int Index);

View file

@ -553,7 +553,7 @@ public:
void GetSize(float *w, float *h) { *w = m_Width*32.0f; *h = m_Height*32.0f; }
void TryInvokeAutomapper();
void FlagModified(int x, int y, int w, int h);
int m_TexID;
int m_Game;

View file

@ -397,8 +397,7 @@ void CLayerTiles::FillSelection(bool Empty, CLayer *pBrush, CUIRect Rect)
SetTile(fx, fy, pLt->m_pTiles[(y*pLt->m_Width + x%pLt->m_Width) % (pLt->m_Width*pLt->m_Height)]);
}
}
m_pEditor->m_Map.m_Modified = true;
TryInvokeAutomapper();
FlagModified(sx, sy, w, h);
}
void CLayerTiles::BrushDraw(CLayer *pBrush, float wx, float wy)
@ -421,8 +420,7 @@ void CLayerTiles::BrushDraw(CLayer *pBrush, float wx, float wy)
SetTile(fx, fy, l->m_pTiles[y*l->m_Width+x]);
}
m_pEditor->m_Map.m_Modified = true;
TryInvokeAutomapper();
FlagModified(sx, sy, l->m_Width, l->m_Height);
}
void CLayerTiles::BrushFlipX()
@ -700,7 +698,7 @@ int CLayerTiles::RenderProperties(CUIRect *pToolBox)
if(m_pEditor->DoButton_Editor(&s_AutoMapperButtonAuto, "A", m_AutoAutoMap, &ButtonAuto, 0, "Automatically run automap after modifications."))
{
m_AutoAutoMap = !m_AutoAutoMap;
TryInvokeAutomapper();
FlagModified(0, 0, m_Width, m_Height);
}
}
if(m_pEditor->DoButton_Editor(&s_AutoMapperButton, "Automap", 0, &Button, 0, "Run the automapper"))
@ -828,23 +826,22 @@ int CLayerTiles::RenderProperties(CUIRect *pToolBox)
}
else if(Prop == PROP_AUTOMAPPER)
{
if (m_Image >= 0)
if (m_Image >= 0 && m_pEditor->m_Map.m_lImages[m_Image]->m_AutoMapper.ConfigNamesNum() > 0)
m_AutoMapperConfig = NewVal%m_pEditor->m_Map.m_lImages[m_Image]->m_AutoMapper.ConfigNamesNum();
else
m_AutoMapperConfig = -1;
}
if(Prop != -1) {
m_pEditor->m_Map.m_Modified = true;
TryInvokeAutomapper();
FlagModified(0, 0, m_Width, m_Height);
}
return 0;
}
void CLayerTiles::TryInvokeAutomapper() {
if (m_Seed != 0 && m_AutoMapperConfig != -1 && m_AutoAutoMap) {
m_pEditor->m_Map.m_lImages[m_Image]->m_AutoMapper.Proceed(this, m_AutoMapperConfig, m_Seed);
void CLayerTiles::FlagModified(int x, int y, int w, int h) {
m_pEditor->m_Map.m_Modified = true;
if (m_Seed != 0 && m_AutoMapperConfig != -1 && m_AutoAutoMap) {
m_pEditor->m_Map.m_lImages[m_Image]->m_AutoMapper.ProceedLocalized(this, m_AutoMapperConfig, m_Seed, x, y, w, h);
}
}
@ -995,8 +992,7 @@ void CLayerTele::BrushDraw(CLayer *pBrush, float wx, float wy)
m_pTiles[fy*m_Width+fx].m_Index = 0;
}
}
m_pEditor->m_Map.m_Modified = true;
TryInvokeAutomapper();
FlagModified(sx, sy, l->m_Width, l->m_Height);
}
void CLayerTele::BrushFlipX()
@ -1109,6 +1105,7 @@ void CLayerTele::FillSelection(bool Empty, CLayer *pBrush, CUIRect Rect)
}
}
}
FlagModified(sx, sy, w, h);
}
CLayerSpeedup::CLayerSpeedup(int w, int h)
@ -1263,8 +1260,7 @@ void CLayerSpeedup::BrushDraw(CLayer *pBrush, float wx, float wy)
m_pTiles[fy*m_Width+fx].m_Index = 0;
}
}
m_pEditor->m_Map.m_Modified = true;
TryInvokeAutomapper();
FlagModified(sx, sy, l->m_Width, l->m_Height);
}
void CLayerSpeedup::BrushFlipX()
@ -1385,6 +1381,7 @@ void CLayerSpeedup::FillSelection(bool Empty, CLayer *pBrush, CUIRect Rect)
}
}
}
FlagModified(sx, sy, w, h);
}
CLayerFront::CLayerFront(int w, int h)
@ -1452,8 +1449,7 @@ void CLayerFront::BrushDraw(CLayer *pBrush, float wx, float wy)
SetTile(fx, fy, l->m_pTiles[y*l->m_Width+x]);
}
m_pEditor->m_Map.m_Modified = true;
TryInvokeAutomapper();
FlagModified(sx, sy, l->m_Width, l->m_Height);
}
CLayerSwitch::CLayerSwitch(int w, int h)
@ -1606,8 +1602,7 @@ void CLayerSwitch::BrushDraw(CLayer *pBrush, float wx, float wy)
m_pSwitchTile[fy*m_Width+fx].m_Delay = 0;
}
}
m_pEditor->m_Map.m_Modified = true;
TryInvokeAutomapper();
FlagModified(sx, sy, l->m_Width, l->m_Height);
}
void CLayerSwitch::FillSelection(bool Empty, CLayer *pBrush, CUIRect Rect)
@ -1664,6 +1659,7 @@ void CLayerSwitch::FillSelection(bool Empty, CLayer *pBrush, CUIRect Rect)
}
}
}
FlagModified(sx, sy, w, h);
}
//------------------------------------------------------
@ -1807,8 +1803,7 @@ void CLayerTune::BrushDraw(CLayer *pBrush, float wx, float wy)
m_pTiles[fy*m_Width+fx].m_Index = 0;
}
}
m_pEditor->m_Map.m_Modified = true;
TryInvokeAutomapper();
FlagModified(sx, sy, l->m_Width, l->m_Height);
}
@ -1921,4 +1916,6 @@ void CLayerTune::FillSelection(bool Empty, CLayer *pBrush, CUIRect Rect)
}
}
}
FlagModified(sx, sy, w, h);
}