diff options
Diffstat (limited to 'indra/integration_tests')
-rwxr-xr-x | indra/integration_tests/llimage_libtest/llimage_libtest.cpp | 156 |
1 files changed, 107 insertions, 49 deletions
diff --git a/indra/integration_tests/llimage_libtest/llimage_libtest.cpp b/indra/integration_tests/llimage_libtest/llimage_libtest.cpp index 6045ed321d..009be0941e 100755 --- a/indra/integration_tests/llimage_libtest/llimage_libtest.cpp +++ b/indra/integration_tests/llimage_libtest/llimage_libtest.cpp @@ -40,6 +40,7 @@ #include "lldir.h" #include "lldiriterator.h" #include "v4coloru.h" +#include "llsdserialize.h" // system libraries #include <iostream> @@ -97,6 +98,7 @@ static const char USAGE[] = "\n" " - 'darken' substracts <param> light to the image (<param> between 0 and 255).\n" " - 'linearize' optimizes the contrast using the brightness histogram. <param> is the fraction (between 0.0 and 1.0) of discarded tail of the histogram.\n" " - 'posterize' redistributes the colors between <param> classes per channel (<param> between 2 and 255).\n" +" - Any other value will be interpreted as a file name describing a sequence of filters and parameters to be applied to the input images\n" " -v, --vignette <name> [<feather> <min>]\n" " Apply a circular central vignette <name> to the filter using the optional <feather> and <min> values. Admissible names:\n" " - 'blend' : the filter is applied with full intensity in the center and blends with the image to the periphery.\n" @@ -114,10 +116,110 @@ static const char USAGE[] = "\n" // true when all image loading is done. Used by metric logging thread to know when to stop the thread. static bool sAllDone = false; +// Load filter from file +LLSD load_filter_from_file(const std::string& file_path) +{ + std::cout << "Loading filter settings from : " << file_path << std::endl; + + llifstream filter_xml(file_path); + if (filter_xml.is_open()) + { + // load and parse it + LLSD filter_data(LLSD::emptyArray()); + LLPointer<LLSDParser> parser = new LLSDXMLParser(); + parser->parse(filter_xml, filter_data, LLSDSerialize::SIZE_UNLIMITED); + filter_xml.close(); + return filter_data; + } + else + { + return LLSD(); + } +} + +// Apply the filter data to the image passed as parameter +void execute_filter(const LLSD& filter_data, LLPointer<LLImageRaw> raw_image) +{ + //std::cout << "Filter : size = " << filter_data.size() << std::endl; + for (S32 i = 0; i < filter_data.size(); ++i) + { + std::string filter_name = filter_data[i][0].asString(); + // Dump out the filter values (for debug) + //std::cout << "Filter : name = " << filter_data[i][0].asString() << ", params = "; + //for (S32 j = 1; j < filter_data[i].size(); ++j) + //{ + // std::cout << filter_data[i][j].asString() << ", "; + //} + //std::cout << std::endl; + + // Execute the filter described on this line + if (filter_name == "blend") + { + raw_image->setVignette(VIGNETTE_MODE_BLEND,(float)(filter_data[i][1].asReal()),(float)(filter_data[i][2].asReal())); + } + else if (filter_name == "fade") + { + raw_image->setVignette(VIGNETTE_MODE_FADE,(float)(filter_data[i][1].asReal()),(float)(filter_data[i][2].asReal())); + } + else if (filter_name == "sepia") + { + raw_image->filterSepia(); + } + else if (filter_name == "grayscale") + { + raw_image->filterGrayScale(); + } + else if (filter_name == "saturate") + { + raw_image->filterSaturate((float)(filter_data[i][1].asReal())); + } + else if (filter_name == "rotate") + { + raw_image->filterRotate((float)(filter_data[i][1].asReal())); + } + else if (filter_name == "gamma") + { + LLColor3 color((float)(filter_data[i][2].asReal()),(float)(filter_data[i][3].asReal()),(float)(filter_data[i][4].asReal())); + raw_image->filterGamma((float)(filter_data[i][1].asReal()),color); + } + else if (filter_name == "colorize") + { + LLColor3 color((float)(filter_data[i][1].asReal()),(float)(filter_data[i][2].asReal()),(float)(filter_data[i][3].asReal())); + LLColor3 alpha((F32)(filter_data[i][4].asReal()),(float)(filter_data[i][5].asReal()),(float)(filter_data[i][6].asReal())); + raw_image->filterColorize(color,alpha); + } + else if (filter_name == "contrast") + { + LLColor3 color((float)(filter_data[i][2].asReal()),(float)(filter_data[i][3].asReal()),(float)(filter_data[i][4].asReal())); + raw_image->filterContrast((float)(filter_data[i][1].asReal()),color); + } + else if (filter_name == "brighten") + { + LLColor3 color((float)(filter_data[i][2].asReal()),(float)(filter_data[i][3].asReal()),(float)(filter_data[i][4].asReal())); + raw_image->filterBrightness((S32)(filter_data[i][1].asReal()),color); + } + else if (filter_name == "darken") + { + LLColor3 color((float)(filter_data[i][2].asReal()),(float)(filter_data[i][3].asReal()),(float)(filter_data[i][4].asReal())); + raw_image->filterBrightness((S32)(-filter_data[i][1].asReal()),color); + } + else if (filter_name == "linearize") + { + LLColor3 color((float)(filter_data[i][2].asReal()),(float)(filter_data[i][3].asReal()),(float)(filter_data[i][4].asReal())); + raw_image->filterLinearize((float)(filter_data[i][1].asReal()),color); + } + else if (filter_name == "posterize") + { + LLColor3 color((float)(filter_data[i][2].asReal()),(float)(filter_data[i][3].asReal()),(float)(filter_data[i][4].asReal())); + raw_image->filterEqualize((S32)(filter_data[i][1].asReal()),color); + } + } +} + // Create an empty formatted image instance of the correct type from the filename LLPointer<LLImageFormatted> create_image(const std::string &filename) { - std::string exten = gDirUtilp->getExtension(filename); + std::string exten = gDirUtilp->getExtension(filename); LLPointer<LLImageFormatted> image = LLImageFormatted::createFromExtension(exten); return image; } @@ -716,55 +818,11 @@ int main(int argc, char** argv) { raw_image->filterEqualize((S32)(filter_param),LLColor3::white); } - // Test for some "a la Instagram" filters - else if (filter_name == "Lomofi") + else if (filter_name != "") { - raw_image->setVignette(VIGNETTE_MODE_BLEND,4.0,0.0); - raw_image->filterLinearize(0.2,LLColor3::white); - raw_image->filterBrightness(20,LLColor3::white); - } - else if (filter_name == "Poprocket") - { - LLColor3 color(1.0,0.0,0.0); - LLColor3 alpha(0.5,0.0,0.0); - raw_image->filterLinearize(0.0,LLColor3::white); - raw_image->filterContrast(0.5,LLColor3::white); - raw_image->setVignette(VIGNETTE_MODE_FADE,4.0,0.5); - raw_image->filterColorize(color,alpha); - } - else if (filter_name == "Sutro") - { - raw_image->filterLinearize(0.2,LLColor3::white); - raw_image->setVignette(VIGNETTE_MODE_FADE,4.0,0.5); - raw_image->filterSepia(); - } - else if (filter_name == "Toaster") - { - raw_image->filterContrast(0.8,LLColor3::white); - raw_image->setVignette(VIGNETTE_MODE_FADE,4.0,0.5); - raw_image->filterBrightness(10,LLColor3::white); - //raw_image->filterColorBalance(0.5,1.0,1.0); - } - else if (filter_name == "Inkwell") - { - raw_image->filterLinearize(0.0,LLColor3::white); - raw_image->filterGrayScale(); - } - else if (filter_name == "Hefe") - { - raw_image->filterLinearize(0.0,LLColor3::white); - raw_image->setVignette(VIGNETTE_MODE_FADE,4.0,0.5); - raw_image->filterContrast(1.5,LLColor3::white); - } - else if (filter_name == "Gotham") - { - raw_image->filterLinearize(0.0,LLColor3::white); - // Blow out the Blue - LLColor3 color(0.0,0.0,0.0); - LLColor3 alpha(0.0,0.0,1.0); - raw_image->filterColorize(color,alpha); - // Convert to Grayscale - raw_image->filterGrayScale(); + // We're interpreting the filter as a filter file name + LLSD filter_data = load_filter_from_file(filter_name); + execute_filter(filter_data,raw_image); } // Save file |