// Save current image in file [true = success, false otherwise]
bool PNG::save(string pathname) const{
//create encoder and set settings and info (optional)
LodePNG::Encoder encoder;
encoder.getSettings().zlibsettings.windowSize = 2048;
//encode and save
std::vector<unsigned char> buffer;
encoder.encode(buffer, image.empty() ? 0 : &image[0], width, height);
LodePNG::saveFile(buffer, pathname);
if(encoder.hasError())
{
return false;
}
return true;
}
bool ImageWriter::convert( Image* image )
{
#pragma TODO("Fix the LodePNG image writing code to the new API")
#if defined(ENABLE_IMAGE_WRITER_)
LodePNG::Encoder encoder;
LodePNG_InfoColor& png = encoder.getInfoPng().color;
LodePNG_InfoColor& raw = encoder.getInfoRaw().color;
switch(image->getPixelFormat())
{
case PixelFormat::Depth:
png.colorType = 0;
raw.colorType = 0;
break;
case PixelFormat::R8G8B8:
png.colorType = 2;
raw.colorType = 2;
break;
case PixelFormat::R8G8B8A8:
png.colorType = 6;
raw.colorType = 6;
break;
default:
LogError("Pixel format is not supported");
return false;
}
raw.bitDepth = 8;
encoder.encode(output, image->getBuffer(),
image->getWidth(), image->getHeight());
if( encoder.hasError() )
{
LogError("Could not encode image to PNG");
return false;
}
return true;
#else
return false;
#endif
}
int LuaCube::saveScreenshot(lua_State *L)
{
const char *filename = luaL_checkstring(L, 1);
Cube::LCD &lcd = LuaSystem::sys->cubes[id].lcd;
std::vector<uint8_t> pixels;
for (unsigned i = 0; i < lcd.FB_SIZE; i++) {
RGB565 color = lcd.fb_mem[i];
pixels.push_back(color.red());
pixels.push_back(color.green());
pixels.push_back(color.blue());
pixels.push_back(0xFF);
}
LodePNG::Encoder encoder;
std::vector<uint8_t> pngData;
encoder.encode(pngData, pixels, lcd.WIDTH, lcd.HEIGHT);
LodePNG::saveFile(pngData, filename);
return 0;
}
void FW::exportLodePngImage(OutputStream& stream, const Image* image)
{
// Select format and convert.
FW_ASSERT(image);
const Vec2i& size = image->getSize();
bool hasAlpha = image->getFormat().hasChannel(ImageFormat::ChannelType_A);
ImageFormat::ID format = (hasAlpha) ? ImageFormat::R8_G8_B8_A8 : ImageFormat::R8_G8_B8;
Image* converted = NULL;
if (image->getFormat().getID() != format)
{
converted = new Image(size, format);
*converted = *image;
}
// Encode image.
LodePNG::Encoder encoder;
int colorType = (hasAlpha) ? 6 : 2;
encoder.getSettings().autoLeaveOutAlphaChannel = false;
encoder.getInfoRaw().color.colorType = colorType;
encoder.getInfoPng().color.colorType = colorType;
std::vector<U8> dataBuffer;
encoder.encode(dataBuffer, (U8*)((converted) ? converted : image)->getPtr(), size.x, size.y);
if (encoder.hasError())
setError("exportLodePngImage(): LodePNG error %d!", encoder.getError());
// Write to the output stream.
if (!hasError() && !dataBuffer.empty())
stream.write(&dataBuffer[0], (int)dataBuffer.size());
// Clean up.
delete converted;
}
bool ProceduralTexture::savePNG(char *png_map)
{
std::vector<unsigned char> buffer;
//create encoder and set settings and info (optional)
LodePNG::Encoder encoder;
encoder.addText("Comment", "CubicVR Procedural Texture");
encoder.getSettings().zlibsettings.windowSize = 2048;
encoder.encode(buffer, image.empty() ? 0 : &image[0], width, height);
if(encoder.hasError())
{
Logger::log(LOG_ERROR,"[savePng] Error %d\n", encoder.getError());
return false;
}
LodePNG::saveFile(buffer, png_map);
return true;
}
int save_png_SDFont(
const char* orig_filename,
const char* font_name,
int img_width, int img_height,
const std::vector< unsigned char > &img_data,
std::vector< sdf_glyph > &packed_glyphs,
const std::map<int, int> & char_map,
int font_size )
{
// save my image
int fn_size = strlen( orig_filename ) + 100;
char *fn = new char[ fn_size ];
sprintf( fn, "%s_sdf.png", orig_filename );
printf( "'%s'\n", fn );
LodePNG::Encoder encoder;
encoder.addText("Comment", "Signed Distance Font: lonesock tools");
encoder.getSettings().zlibsettings.windowSize = 512; // faster, not much worse compression
std::vector<unsigned char> buffer;
int tin = clock();
encoder.encode( buffer, img_data.empty() ? 0 : &img_data[0], img_width, img_height );
LodePNG::saveFile( buffer, fn );
tin = clock() - tin;
// remap from unicode to codepage, get font height
float ymax = 0, ymin = 0;
if( char_map.size() != 0 )
{
for( unsigned int i = 0; i < packed_glyphs.size(); ++i )
{
std::map<int, int>::const_iterator id;
if( (id = char_map.find(packed_glyphs[i].ID)) != char_map.end() )
{
packed_glyphs[i].ID = id->second;
float ymaxi = packed_glyphs[i].yoff;
float ymini = packed_glyphs[i].yoff - packed_glyphs[i].height;
if (ymax < ymaxi) ymax = ymaxi;
if (ymin > ymini) ymin = ymini;
}
}
}
// now save the acompanying info
sprintf( fn, "%s_sdf.txt", orig_filename );
FILE *fp = fopen( fn, "w" );
if( fp )
{
fprintf( fp, "info face=\"%s\"\n", font_name );
fprintf( fp, "size=%i\n", font_size );
fprintf( fp, "ascent=%2.0f\n", ymax );
fprintf( fp, "descent=%2.0f\n", ymin );
fprintf( fp, "chars count=%zu\n", packed_glyphs.size() );
for( unsigned int i = 0; i < packed_glyphs.size(); ++i )
{
fprintf( fp, "char id=%-6ix=%-6iy=%-6iwidth=%-6iheight=%-6i",
packed_glyphs[i].ID,
packed_glyphs[i].x,
packed_glyphs[i].y,
packed_glyphs[i].width,
packed_glyphs[i].height );
fprintf( fp, "xoffset=%-10.3fyoffset=%-10.3fxadvance=%-10.3f",
packed_glyphs[i].xoff,
packed_glyphs[i].yoff,
packed_glyphs[i].xadv );
fprintf( fp, " page=0 chnl=0\n" );
}
fclose( fp );
}
delete [] fn;
return tin;
}
bool render_signed_distance_image(
const char* image_file,
int texture_size,
bool export_c_header )
{
// try to load this file as an image
int w, h, channels;
unsigned char *img = stbi_load( image_file, &w, &h, &channels, 0 );
if( !img )
{
return false;
}
// image loaded
printf( "Loaded '%s', %i x %i, channels 0", image_file, w, h );
for( int i = 1; i < channels; ++i )
{
printf( ",%i", i );
}
printf( "\n" );
// check for components and resizing issues
if( (w <= texture_size) && (h <= texture_size) )
{
printf( "The output texture size is larger than the input image dimensions!\n" );
stbi_image_free( img );
return false;
}
// now, which channel do I use as the input function?
int chan = 0;
if( channels > 1 )
{
printf( "Which channel contains the input? " );
scanf( "%i", &chan );
if( chan < 0 )
{
chan = 0;
} else if( chan >= channels )
{
chan = channels - 1;
}
}
printf( "Using channel %i as the input\n", chan );
std::vector<unsigned char> img_data;
img_data.reserve( w*h );
for( int i = chan; i < w*h*channels; i += channels )
{
img_data.push_back( img[i] );
}
stbi_image_free( img );
// is this channel strictly 2 values?
bool needs_threshold = false;
int vmax, vmin;
{
int val0 = img_data[0], val = -1;
vmin = img_data[0];
vmax = img_data[0];
for( int i = 0; i < w*h; ++i )
{
// do I need a threshold?
if( img_data[i] != val0 )
{
if( val < 0 )
{
// second value
val = img_data[i];
} else
{
needs_threshold = (val != img_data[i]);
}
}
// find min and max, just in case
if( img_data[i] < vmin )
{
vmin = img_data[i];
}
if( img_data[i] > vmax )
{
vmax = img_data[i];
}
}
}
if( needs_threshold )
{
int thresh;
printf( "The image needs a threshold, between %i and %i (< threshold is 0): ", vmin, vmax );
scanf( "%i", &thresh );
if( thresh <= vmin )
{
thresh = vmin + 1;
} else if( thresh > vmax )
{
thresh = vmax;
}
printf( "using threshold=%i\n", thresh );
for( int i = 0; i < w*h; ++i )
{
if( img_data[i] < thresh )
{
img_data[i] = 0;
} else
{
img_data[i] = 255;
}
}
}
// OK, I'm finally ready to perform the SDF analysis
int sw;
if( w > h )
{
sw = 2 * w / texture_size;
} else
{
sw = 2 * h / texture_size;
}
std::vector<unsigned char> pdata( 4 * texture_size * texture_size, 0 );
img = &(img_data[0]);
for( int j = 0; j < texture_size; ++j )
{
for( int i = 0; i < texture_size; ++i )
{
int sx = i * (w-1) / (texture_size-1);
int sy = j * (h-1) / (texture_size-1);
int pd_idx = (i+j*texture_size) * 4;
pdata[pd_idx] =
get_SDF_radial
( img, w, h,
sx, sy, sw );
pdata[pd_idx+1] = pdata[pd_idx];
pdata[pd_idx+2] = pdata[pd_idx];
pdata[pd_idx+3] = pdata[pd_idx];
}
}
// save the image
int fn_size = strlen( image_file ) + 100;
char *fn = new char[ fn_size ];
#if 0
sprintf( fn, "%s_sdf.bmp", image_file );
stbi_write_bmp( fn, texture_size, texture_size, 4, &pdata[0] );
#endif
sprintf( fn, "%s_sdf.png", image_file );
printf( "'%s'\n", fn );
LodePNG::Encoder encoder;
encoder.addText("Comment", "Signed Distance Image: lonesock tools");
encoder.getSettings().zlibsettings.windowSize = 512; // faster, not much worse compression
std::vector<unsigned char> buffer;
int tin = clock();
encoder.encode( buffer, pdata.empty() ? 0 : &pdata[0], texture_size, texture_size );
LodePNG::saveFile( buffer, fn );
tin = clock() - tin;
return true;
}
