// NeL - MMORPG Framework // Copyright (C) 2010 Winch Gate Property Limited // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Affero General Public License as // published by the Free Software Foundation, either version 3 of the // License, or (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Affero General Public License for more details. // // You should have received a copy of the GNU Affero General Public License // along with this program. If not, see . #include "nel/misc/file.h" #include "nel/misc/common.h" #include "nel/misc/bitmap.h" #include "nel/misc/path.h" #include "nel/misc/cmd_args.h" #include "nel/misc/vector_2d.h" #include "nel/misc/uv.h" #include "nel/misc/algo.h" struct CPoint { CPoint(sint _x, sint _y) :x(_x), y(_y) { } CPoint operator + (const CPoint &p) const { return CPoint(x + p.x, y + p.y); } sint x; sint y; }; const CPoint Up(0, -1); const CPoint Down(0, 1); const CPoint Left(-1, 0); const CPoint Right(1, 0); uint TextureSize = 4096; const NLMISC::CRGBA DiscardColor = NLMISC::CRGBA::Red; const NLMISC::CRGBA KeepColor = NLMISC::CRGBA::Blue; typedef std::vector CPoints; struct CFace { std::vector indices; }; struct CObject { std::string name; std::vector textureCoords; std::vector faces; void display() { nlinfo("Object %s processed with %u vertices and %u faces", name.c_str(), (uint)textureCoords.size(), (uint)faces.size()); } }; bool fillPoint(NLMISC::CBitmap &bitmap, sint width, CPoints &points) { if (points.empty()) return false; // take last point in queue CPoint p(points.back()); points.pop_back(); NLMISC::CRGBA c = bitmap.getPixelColor(p.x, p.y); if (c == NLMISC::CRGBA::White) { // white is used for background // replace with color we want to discard bitmap.setPixelColor(p.x, p.y, DiscardColor); uint w = bitmap.getWidth(); uint h = bitmap.getHeight(); // put adjacent pixels in queue to process later if (p.y > 0) points.push_back(p + Up); if (p.y < h-1) points.push_back(p + Down); if (p.x > 0) points.push_back(p + Left); if (p.x < w-1) points.push_back(p + Right); } else if (c == NLMISC::CRGBA::Black) { // black is used for vertices // increase them by border width for (sint y = -width; y <= width; ++y) { for (sint x = -width; x <= width; ++x) { bitmap.setPixelColor(p.x + x, p.y + y, KeepColor); } } } return true; } void drawEdge(NLMISC::CBitmap &bitmap, const CObject &object, const CFace &face, uint index0, uint index1) { NLMISC::CUV uv0 = object.textureCoords[face.indices[index0]]; NLMISC::CUV uv1 = object.textureCoords[face.indices[index1]]; std::vector > pixels; // draw the triangle with vertices UV coordinates NLMISC::drawFullLine(uv0.U, uv0.V, uv1.U, uv1.V, pixels); // for each pixels, set them to black for (uint j = 0, jlen = pixels.size(); j < jlen; ++j) { bitmap.setPixelColor(pixels[j].first, pixels[j].second, NLMISC::CRGBA::Black); } } int main(int argc, char **argv) { NLMISC::CApplicationContext applicationContext; // Parse Command Line. //==================== NLMISC::CCmdArgs args; args.setDescription("Textures tool"); args.addArg("c", "colorize", "color", "Colorize textures using a color (in HTML hexdecimal format like #rrggbb)"); args.addArg("f", "fill", "color or image", "Fill background part with color or image"); args.addArg("u", "uvmap", "", "Generate a UV Map texture from OBJ file"); args.addArg("w", "width", "width of border", "Width of the border to fill (default 0)"); args.addArg("s", "size", "size of output bitmap", "Width and height of generated bitmap (default 4096)"); args.addArg("b", "background", "background color", "Color to use to fill background"); args.addArg("o", "output", "filename", "Output filename"); args.addAdditionalArg("filename", "File to process", true, true); if (!args.parse(argc, argv)) return 1; std::string filename = args.getAdditionalArg("filename").front(); std::string output = args.haveArg("o") ? args.getArg("o").front() : ""; if (args.haveArg("s")) { // size of generated bitmap NLMISC::fromString(args.getArg("s").front(), TextureSize); } if (args.haveArg("c")) { // colorize NLMISC::CIFile file; NLMISC::CRGBA color; color.fromString(args.getArg("c").front()); if (file.open(filename)) { NLMISC::CBitmap bitmap; if (bitmap.load(file)) { NLMISC::CObjectVector &pixels = bitmap.getPixels(); NLMISC::CRGBA *pRGBA = (NLMISC::CRGBA*)&pixels[0]; uint32 size = bitmap.getSize(); for (uint j = 0; j < size; ++j) { // TODO: find what computation do // *(pRGBA++)-> = color; } NLMISC::COFile out; if (out.open(output)) { bitmap.writePNG(out, 24); } } } } if (args.haveArg("f")) { // fill areas in a bitmap with another texture or color // for example : // textures_tool -f normal.png -w 2 -b #000000 uvmap.png -o test_normal.png // will use a copy 1024x1024 texture map on a 4096x4096 UV Map preserving the different areas std::string foregroundColorOrFilename = args.getArg("f").front(); NLMISC::CRGBA foregroundColor = NLMISC::CRGBA::Black, backgroundColor = NLMISC::CRGBA::Black; NLMISC::CBitmap textureBitmap; bool useTexture = false; // f parameter is required if (NLMISC::CFile::fileExists(foregroundColorOrFilename)) { // load texture NLMISC::CIFile textureFile; if (!textureFile.open(foregroundColorOrFilename)) { nlwarning("Unable to open %s", foregroundColorOrFilename.c_str()); return 1; } // decode texture if (!textureBitmap.load(textureFile)) { nlwarning("Unable to decode %s", foregroundColorOrFilename.c_str()); return 1; } useTexture = true; } else { // parse color from argument foregroundColor.fromString(foregroundColorOrFilename); } if (args.haveArg("b")) { // parse HTML color from argument backgroundColor.fromString(args.getArg("b").front()); } sint width = 0; if (args.haveArg("w")) { // parse width of borders NLMISC::fromString(args.getArg("w").front(), width); } // load bitmap NLMISC::CIFile file; if (!file.open(filename)) { nlwarning("Unable to open %s", filename.c_str()); return 1; } // decode bitmap NLMISC::CBitmap inBitmap; if (!inBitmap.load(file)) { nlwarning("Unable to decode %s", filename.c_str()); return 1; } CPoints Points; // we can't have more than width * height points, so allocate memory for all of them Points.reserve(inBitmap.getWidth() * inBitmap.getHeight()); // first point to process Points.push_back(CPoint(0, 0)); // process all points from 0, 0 while(fillPoint(inBitmap, width, Points)) { } // create a new bitmap for output NLMISC::CBitmap outBitmap; outBitmap.resize(inBitmap.getWidth(), inBitmap.getHeight()); // copy points colors to new bitmap for (sint y = 0, h = inBitmap.getHeight(); y < h; ++y) { for (sint x = 0, w = inBitmap.getWidth(); x < w; ++x) { if (inBitmap.getPixelColor(x, y) != DiscardColor) { // we copy this point, repeat texture image if using it outBitmap.setPixelColor(x, y, useTexture ? textureBitmap.getPixelColor(x % textureBitmap.getWidth(), y % textureBitmap.getHeight()) : foregroundColor); } else { // put a background color outBitmap.setPixelColor(x, y, backgroundColor); } } } // save output bitmap NLMISC::COFile outFile; if (outFile.open(output)) { outBitmap.writePNG(outFile, 24); } } if (args.haveArg("u")) { NLMISC::CIFile objFile; if (!objFile.open(filename)) { nlwarning("Unable to open %s", filename.c_str()); return 1; } CObject object; char buffer[1024]; while (!objFile.eof()) { objFile.getline(buffer, 1024); buffer[1023] = '\0'; std::string line(buffer); if (line.size() > 1022) { nlwarning("More than 1022 bytes on a line!"); return 1; } if (line.size() < 3) continue; // texture coordinate if (line.substr(0, 3) == "vt ") { // vertex texture std::vector tokens; NLMISC::explode(line, std::string(" "), tokens); if (tokens.size() == 3) { float u, v; NLMISC::fromString(tokens[1], u); NLMISC::fromString(tokens[2], v); // V coordinates are inverted object.textureCoords.push_back(NLMISC::CUV(u * (float)TextureSize, (1.f - v) * (float)TextureSize)); } else { nlwarning("Not 3 arguments for VT"); } } else if (line.substr(0, 2) == "f ") { // face std::vector tokens; NLMISC::explode(line, std::string(" "), tokens); CFace face; face.indices.resize(tokens.size()-1); bool faceValid = true; for (uint i = 1, ilen = tokens.size(); i < ilen; ++i) { std::vector tokens2; NLMISC::explode(tokens[i], std::string("/"), tokens2); if (tokens2.size() == 3) { if (NLMISC::fromString(tokens2[1], face.indices[i - 1])) { // we want indices start from 0 instead of 1 --face.indices[i - 1]; } else { faceValid = false; } } else { nlwarning("Not 3 arguments for indices"); } } if (faceValid) object.faces.push_back(face); } else if (line.substr(0, 2) == "o ") { // object object.name = line.substr(2); object.display(); } } object.display(); objFile.close(); // draw UV Map // create a new bitmap for output NLMISC::CBitmap outBitmap; outBitmap.resize(TextureSize, TextureSize); // white background memset(&outBitmap.getPixels()[0], 255, TextureSize * TextureSize * 4); // process all faces for (uint i = 0, ilen = object.faces.size(); i < ilen; ++i) { const CFace &face = object.faces[i]; // pixels of a face for (uint k = 1, klen = face.indices.size(); k < klen; ++k) { drawEdge(outBitmap, object, face, k - 1, k); } // link last and fist pixels drawEdge(outBitmap, object, face, face.indices.size()-1, 0); } // save output bitmap NLMISC::COFile outFile; if (outFile.open(output)) { outBitmap.writePNG(outFile, 24); } } return 0; }