#include
#include
#include
#include
#include
#include
#include
bool CreatePixelArt(const char[][64], const int[], const int[], int[], const bool[]);
void InsertCurrentQuads(CDataFileReader &, CMapItemLayerQuads *, CQuad *);
int InsertPixelArtQuads(CQuad *, int &, const CImageInfo &, const int[], const int[], const bool[]);
bool LoadPNG(CImageInfo *, const char *);
bool OpenMaps(const char[][64], CDataFileReader &, CDataFileWriter &);
void SaveOutputMap(CDataFileReader &, CDataFileWriter &, CMapItemLayerQuads *, int, CQuad *, int);
CMapItemLayerQuads *GetQuadLayer(CDataFileReader &, const int[], int *);
CQuad CreateNewQuad(float, float, int, int, const uint8_t[], const int[]);
bool GetPixelClamped(const CImageInfo &, int, int, uint8_t[]);
bool ComparePixel(const uint8_t[], const uint8_t[]);
bool IsPixelOptimizable(const CImageInfo &, int, int, const uint8_t[], const bool[]);
void SetVisitedPixels(const CImageInfo &, int, int, int, int, bool[]);
int GetImagePixelSize(const CImageInfo &);
int FindSuperPixelSize(const CImageInfo &, const uint8_t[], int, int, int, bool[]);
void GetOptimizedQuadSize(const CImageInfo &, int, const uint8_t[], int, int, int &, int &, bool[]);
int main(int argc, const char **argv)
{
CCmdlineFix CmdlineFix(&argc, &argv);
log_set_global_logger_default();
if(argc < 11 || argc > 12)
{
dbg_msg("map_create_pixelart", "Invalid arguments");
dbg_msg("map_create_pixelart", "Usage: %s [optimize=0|1] [centralize=0|1]", argv[0]);
dbg_msg("map_create_pixelart", "Note: use destination layer tiles as a reference for positions and pixels for sizes.");
dbg_msg("map_create_pixelart", "Note: set img_pixelsize to 0 to consider the largest possible size.");
dbg_msg("map_create_pixelart", "Note: set quad_pixelsize to 0 to consider the same value of img_pixelsize.");
dbg_msg("map_create_pixelart", "Note: if image.png has not a perfect pixelart grid, result might be unexpected, manually fix img_pixelsize to get it better.");
dbg_msg("map_create_pixelart", "Options: optimize tries to reduce the total number of quads (default: 1).");
dbg_msg("map_create_pixelart", "Options: centralize places all pivots at the same position (default: 0).");
return -1;
}
char aFilenames[3][64];
snprintf(aFilenames[0], 64, "%s", argv[3]); //input_map
snprintf(aFilenames[1], 64, "%s", argv[9]); //output_map
snprintf(aFilenames[2], 64, "%s", argv[1]); //image_file
int aLayerID[2] = {atoi(argv[4]), atoi(argv[5])}; //layergroup_id, layer_id
int aStartingPos[2] = {atoi(argv[6]) * 32, atoi(argv[7]) * 32}; //pos_x, pos_y
int aPixelSizes[2] = {atoi(argv[2]), atoi(argv[8])}; //quad_pixelsize, img_pixelsize
bool aArtOptions[3];
aArtOptions[0] = argc >= 10 ? atoi(argv[10]) : true; //optimize
aArtOptions[1] = argc >= 11 ? atoi(argv[11]) : false; //centralize
dbg_msg("map_create_pixelart", "image_file='%s'; image_pixelsize='%dpx'; input_map='%s'; layergroup_id='#%d'; layer_id='#%d'; pos_x='#%dpx'; pos_y='%dpx'; quad_pixelsize='%dpx'; output_map='%s'; optimize='%d'; centralize='%d'",
aFilenames[2], aPixelSizes[0], aFilenames[1], aLayerID[0], aLayerID[1], aStartingPos[0], aStartingPos[1], aPixelSizes[1], aFilenames[2], aArtOptions[0], aArtOptions[1]);
return !CreatePixelArt(aFilenames, aLayerID, aStartingPos, aPixelSizes, aArtOptions);
}
bool CreatePixelArt(const char aFilenames[3][64], const int aLayerID[2], const int aStartingPos[2], int aPixelSizes[2], const bool aArtOptions[2])
{
CImageInfo Img;
if(!LoadPNG(&Img, aFilenames[2]))
return false;
aPixelSizes[0] = aPixelSizes[0] ? aPixelSizes[0] : GetImagePixelSize(Img);
aPixelSizes[1] = aPixelSizes[1] ? aPixelSizes[1] : aPixelSizes[0];
CDataFileReader InputMap;
CDataFileWriter OutputMap;
if(!OpenMaps(aFilenames, InputMap, OutputMap))
return false;
int ItemNumber = 0;
CMapItemLayerQuads *pQuadLayer = GetQuadLayer(InputMap, aLayerID, &ItemNumber);
if(!pQuadLayer)
return false;
int MaxNewQuads = ceil((Img.m_Width * Img.m_Height) / aPixelSizes[0]);
CQuad *pQuads = new CQuad[pQuadLayer->m_NumQuads + MaxNewQuads];
InsertCurrentQuads(InputMap, pQuadLayer, pQuads);
int QuadsCounter = InsertPixelArtQuads(pQuads, pQuadLayer->m_NumQuads, Img, aStartingPos, aPixelSizes, aArtOptions);
SaveOutputMap(InputMap, OutputMap, pQuadLayer, ItemNumber, pQuads, ((int)sizeof(CQuad)) * (pQuadLayer->m_NumQuads + 1));
delete[] pQuads;
dbg_msg("map_create_pixelart", "INFO: sucessfully added %d new pixelart quads.", QuadsCounter);
return true;
}
void InsertCurrentQuads(CDataFileReader &InputMap, CMapItemLayerQuads *pQuadLayer, CQuad *pNewQuads)
{
CQuad *pCurrentQuads = (CQuad *)InputMap.GetDataSwapped(pQuadLayer->m_Data);
for(int i = 0; i < pQuadLayer->m_NumQuads; i++)
pNewQuads[i] = pCurrentQuads[i];
}
int InsertPixelArtQuads(CQuad *pQuads, int &NumQuads, const CImageInfo &Img, const int aStartingPos[2], const int aPixelSizes[2], const bool aArtOptions[2])
{
int ImgPixelSize = aPixelSizes[0], QuadPixelSize = aPixelSizes[1], OriginalNumQuads = NumQuads;
int aForcedPivot[2] = {std::numeric_limits::max(), std::numeric_limits::max()};
bool *aVisitedPixels = new bool[Img.m_Height * Img.m_Width];
memset(aVisitedPixels, 0, sizeof(bool[Img.m_Height * Img.m_Width]));
for(int y = 0; y < Img.m_Height; y += ImgPixelSize)
for(int x = 0; x < Img.m_Width; x += ImgPixelSize)
{
uint8_t aPixel[4];
if(aVisitedPixels[x + y * Img.m_Width] || !GetPixelClamped(Img, x, y, aPixel))
continue;
int Width = 1, Height = 1;
if(aArtOptions[0])
GetOptimizedQuadSize(Img, ImgPixelSize, aPixel, x, y, Width, Height, aVisitedPixels);
float Posx = aStartingPos[0] + ((x / (float)ImgPixelSize) + (Width / 2.f)) * QuadPixelSize;
float Posy = aStartingPos[1] + ((y / (float)ImgPixelSize) + (Height / 2.f)) * QuadPixelSize;
if(aArtOptions[1] && aForcedPivot[0] == std::numeric_limits::max())
{
aForcedPivot[0] = Posx;
aForcedPivot[1] = Posy;
}
pQuads[NumQuads] = CreateNewQuad(Posx, Posy, QuadPixelSize * Width, QuadPixelSize * Height, aPixel, aArtOptions[1] ? aForcedPivot : 0x0);
NumQuads++;
}
delete[] aVisitedPixels;
return NumQuads - OriginalNumQuads;
}
void GetOptimizedQuadSize(const CImageInfo &Img, const int ImgPixelSize, const uint8_t aPixel[4], const int PosX, const int PosY, int &Width, int &Height, bool aVisitedPixels[])
{
int w = 0, h = 0, OptimizedWidth = 0, OptimizedHeight = 0;
while(IsPixelOptimizable(Img, PosX + w, PosY + h, aPixel, aVisitedPixels))
{
while(IsPixelOptimizable(Img, PosX + w, PosY + h, aPixel, aVisitedPixels) && (!OptimizedHeight || h < OptimizedHeight))
h += ImgPixelSize;
if(!OptimizedHeight || h < OptimizedHeight)
OptimizedHeight = h;
h = 0;
w += ImgPixelSize;
OptimizedWidth = w;
}
SetVisitedPixels(Img, PosX, PosY, OptimizedWidth, OptimizedHeight, aVisitedPixels);
Width = OptimizedWidth / ImgPixelSize;
Height = OptimizedHeight / ImgPixelSize;
}
int GetImagePixelSize(const CImageInfo &Img)
{
int ImgPixelSize = std::numeric_limits::max();
bool *aVisitedPixels = new bool[Img.m_Height * Img.m_Width];
memset(aVisitedPixels, 0, sizeof(bool[Img.m_Height * Img.m_Width]));
for(int y = 0; y < Img.m_Height && ImgPixelSize > 1; y++)
for(int x = 0; x < Img.m_Width && ImgPixelSize > 1; x++)
{
uint8_t aPixel[4];
if(aVisitedPixels[x + y * Img.m_Width])
continue;
GetPixelClamped(Img, x, y, aPixel);
int SuperPixelSize = FindSuperPixelSize(Img, aPixel, x, y, 1, aVisitedPixels);
if(SuperPixelSize < ImgPixelSize)
ImgPixelSize = SuperPixelSize;
}
delete[] aVisitedPixels;
dbg_msg("map_create_pixelart", "INFO: automatically detected img_pixelsize of %dpx", ImgPixelSize);
return ImgPixelSize;
}
int FindSuperPixelSize(const CImageInfo &Img, const uint8_t aPixel[4], const int PosX, const int PosY, const int CurrentSize, bool aVisitedPixels[])
{
if(PosX + CurrentSize >= Img.m_Width || PosY + CurrentSize >= Img.m_Height)
{
SetVisitedPixels(Img, PosX, PosY, CurrentSize, CurrentSize, aVisitedPixels);
return CurrentSize;
}
for(int i = 0; i < 2; i++)
{
for(int j = 0; j < CurrentSize + 1; j++)
{
uint8_t aCheckPixel[4];
int x = PosX, y = PosY;
x += i == 0 ? j : CurrentSize;
y += i == 0 ? CurrentSize : j;
GetPixelClamped(Img, x, y, aCheckPixel);
if(x >= Img.m_Width || y >= Img.m_Height || !ComparePixel(aPixel, aCheckPixel))
{
SetVisitedPixels(Img, PosX, PosY, CurrentSize, CurrentSize, aVisitedPixels);
return CurrentSize;
}
}
}
return FindSuperPixelSize(Img, aPixel, PosX, PosY, CurrentSize + 1, aVisitedPixels);
}
bool GetPixelClamped(const CImageInfo &Img, int x, int y, uint8_t aPixel[4])
{
x = clamp(x, 0, (int)Img.m_Width - 1);
y = clamp(y, 0, (int)Img.m_Height - 1);
memset(aPixel, 255, sizeof(uint8_t[4]));
int BPP = Img.m_Format == CImageInfo::FORMAT_RGB ? 3 : 4;
for(int i = 0; i < BPP; i++)
aPixel[i] = ((uint8_t *)Img.m_pData)[x * BPP + (Img.m_Width * BPP * y) + i];
return aPixel[3];
}
bool ComparePixel(const uint8_t aPixel1[4], const uint8_t aPixel2[4])
{
for(int i = 0; i < 4; i++)
if(aPixel1[i] != aPixel2[i])
return false;
return true;
}
bool IsPixelOptimizable(const CImageInfo &Img, const int PosX, const int PosY, const uint8_t aPixel[4], const bool aVisitedPixels[])
{
uint8_t aCheckPixel[4];
return PosX < Img.m_Width && PosY < Img.m_Height && !aVisitedPixels[PosX + PosY * Img.m_Width] && GetPixelClamped(Img, PosX, PosY, aCheckPixel) && ComparePixel(aPixel, aCheckPixel);
}
void SetVisitedPixels(const CImageInfo &Img, int PosX, int PosY, int Width, int Height, bool aVisitedPixels[])
{
for(int y = PosY; y < PosY + Height; y++)
for(int x = PosX; x < PosX + Width; x++)
aVisitedPixels[x + y * Img.m_Width] = true;
}
CMapItemLayerQuads *GetQuadLayer(CDataFileReader &InputMap, const int aLayerID[2], int *pItemNumber)
{
int Start, Num;
InputMap.GetType(MAPITEMTYPE_GROUP, &Start, &Num);
CMapItemGroup *pGroupItem = aLayerID[0] >= Num ? 0x0 : (CMapItemGroup *)InputMap.GetItem(Start + aLayerID[0], 0, 0);
if(!pGroupItem)
{
dbg_msg("map_create_pixelart", "ERROR: unable to find layergroup '#%d'", aLayerID[0]);
return 0x0;
}
InputMap.GetType(MAPITEMTYPE_LAYER, &Start, &Num);
*pItemNumber = Start + pGroupItem->m_StartLayer + aLayerID[1];
CMapItemLayer *pLayerItem = aLayerID[1] >= pGroupItem->m_NumLayers ? 0x0 : (CMapItemLayer *)InputMap.GetItem(*pItemNumber, 0, 0);
if(!pLayerItem)
{
dbg_msg("map_create_pixelart", "ERROR: unable to find layer '#%d' in group '#%d'", aLayerID[1], aLayerID[0]);
return 0x0;
}
if(pLayerItem->m_Type != LAYERTYPE_QUADS)
{
dbg_msg("map_create_pixelart", "ERROR: layer '#%d' in group '#%d' is not a quad layer", aLayerID[1], aLayerID[0]);
return 0x0;
}
return (CMapItemLayerQuads *)pLayerItem;
}
CQuad CreateNewQuad(const float PosX, const float PosY, const int Width, const int Heigth, const uint8_t aColor[4], const int aForcedPivot[2] = 0x0)
{
CQuad Quad;
Quad.m_PosEnv = Quad.m_ColorEnv = -1;
Quad.m_PosEnvOffset = Quad.m_ColorEnvOffset = 0;
float x = f2fx(PosX), y = f2fx(PosY), w = f2fx(Width / 2.f), h = f2fx(Heigth / 2.f);
for(int i = 0; i < 2; i++)
{
Quad.m_aPoints[i].y = y - h;
Quad.m_aPoints[i + 2].y = y + h;
Quad.m_aPoints[i * 2].x = x - w;
Quad.m_aPoints[i * 2 + 1].x = x + w;
}
for(auto &QuadColor : Quad.m_aColors)
{
QuadColor.r = aColor[0];
QuadColor.g = aColor[1];
QuadColor.b = aColor[2];
QuadColor.a = aColor[3];
}
Quad.m_aPoints[4].x = aForcedPivot ? f2fx(aForcedPivot[0]) : x;
Quad.m_aPoints[4].y = aForcedPivot ? f2fx(aForcedPivot[1]) : y;
return Quad;
}
bool LoadPNG(CImageInfo *pImg, const char *pFilename)
{
IOHANDLE File = io_open(pFilename, IOFLAG_READ);
if(!File)
{
dbg_msg("map_create_pixelart", "ERROR: Unable to open file %s", pFilename);
return false;
}
io_seek(File, 0, IOSEEK_END);
unsigned int FileSize = io_tell(File);
io_seek(File, 0, IOSEEK_START);
TImageByteBuffer ByteBuffer;
SImageByteBuffer ImageByteBuffer(&ByteBuffer);
ByteBuffer.resize(FileSize);
io_read(File, &ByteBuffer.front(), FileSize);
io_close(File);
uint8_t *pImgBuffer = NULL;
EImageFormat ImageFormat;
int PngliteIncompatible;
if(!LoadPNG(ImageByteBuffer, pFilename, PngliteIncompatible, pImg->m_Width, pImg->m_Height, pImgBuffer, ImageFormat))
{
dbg_msg("map_create_pixelart", "ERROR: Unable to load a valid PNG from file %s", pFilename);
return false;
}
if(ImageFormat != IMAGE_FORMAT_RGBA && ImageFormat != IMAGE_FORMAT_RGB)
{
dbg_msg("map_create_pixelart", "ERROR: only RGB and RGBA PNG images are supported");
free(pImgBuffer);
return false;
}
pImg->m_pData = pImgBuffer;
pImg->m_Format = ImageFormat == IMAGE_FORMAT_RGB ? CImageInfo::FORMAT_RGB : CImageInfo::FORMAT_RGBA;
return true;
}
bool OpenMaps(const char pMapNames[2][64], CDataFileReader &InputMap, CDataFileWriter &OutputMap)
{
IStorage *pStorage = CreateLocalStorage();
if(!InputMap.Open(pStorage, pMapNames[0], IStorage::TYPE_ABSOLUTE))
{
dbg_msg("map_create_pixelart", "ERROR: unable to open map '%s'", pMapNames[0]);
return false;
}
if(!OutputMap.Open(pStorage, pMapNames[1], IStorage::TYPE_ABSOLUTE))
{
dbg_msg("map_create_pixelart", "ERROR: unable to open map '%s'", pMapNames[1]);
return false;
}
return true;
}
void SaveOutputMap(CDataFileReader &InputMap, CDataFileWriter &OutputMap, CMapItemLayerQuads *pNewItem, const int NewItemNumber, CQuad *pNewData, const int NewDataSize)
{
for(int i = 0; i < InputMap.NumItems(); i++)
{
int ID, Type;
void *pItem = InputMap.GetItem(i, &Type, &ID);
if(Type == ITEMTYPE_EX)
continue;
if(i == NewItemNumber)
pItem = pNewItem;
int Size = InputMap.GetItemSize(i);
OutputMap.AddItem(Type, ID, Size, pItem);
}
for(int i = 0; i < InputMap.NumData(); i++)
{
if(i == pNewItem->m_Data)
OutputMap.AddData(NewDataSize, pNewData);
else
OutputMap.AddData(InputMap.GetDataSize(i), InputMap.GetData(i));
}
OutputMap.Finish();
}