mapnik/test/unit/imaging/tiff_io.cpp

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// disabled on windows due to https://github.com/mapnik/mapnik/issues/2838
// TODO - get to the bottom of why including `tiff_reader.cpp` breaks windows
// or re-write image_readers to allow `#include tiff_reader.hpp`
#if !defined(_MSC_VER) && defined(HAVE_TIFF)
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#include "catch.hpp"
#include <mapnik/color.hpp>
#include <mapnik/image_util.hpp>
#include <mapnik/image_view.hpp>
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#include <mapnik/image_reader.hpp>
#include <mapnik/util/file_io.hpp>
#include <mapnik/util/fs.hpp>
#include <boost/interprocess/streams/bufferstream.hpp>
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#include "../../../src/tiff_reader.cpp"
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#if defined(MAPNIK_MEMORY_MAPPED_FILE)
using source_type = boost::interprocess::ibufferstream;
#else
using source_type = std::filebuf;
#endif
#define TIFF_ASSERT(filename) \
mapnik::tiff_reader<source_type> tiff_reader(filename); \
REQUIRE( tiff_reader.width() == 256 ); \
REQUIRE( tiff_reader.height() == 256 ); \
REQUIRE( tiff_reader.planar_config() == PLANARCONFIG_CONTIG ); \
std::unique_ptr<mapnik::image_reader> reader(mapnik::get_image_reader(filename,"tiff")); \
REQUIRE( reader->width() == 256 ); \
REQUIRE( reader->height() == 256 ); \
mapnik::util::file file(filename); \
mapnik::tiff_reader<mapnik::util::char_array_buffer> tiff_reader2(file.data().get(),file.size()); \
REQUIRE( tiff_reader2.width() == 256 ); \
REQUIRE( tiff_reader2.height() == 256 ); \
std::unique_ptr<mapnik::image_reader> reader2(mapnik::get_image_reader(file.data().get(),file.size())); \
REQUIRE( reader2->width() == 256 ); \
REQUIRE( reader2->height() == 256 ); \
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#define TIFF_ASSERT_ALPHA( data ) \
REQUIRE( tiff_reader.has_alpha() == true ); \
REQUIRE( reader->has_alpha() == true ); \
REQUIRE( tiff_reader2.has_alpha() == true ); \
REQUIRE( reader2->has_alpha() == true ); \
REQUIRE( data.get_premultiplied() == true ); \
#define TIFF_ASSERT_NO_ALPHA_RGB( data ) \
REQUIRE( tiff_reader.has_alpha() == false ); \
REQUIRE( reader->has_alpha() == false ); \
REQUIRE( tiff_reader2.has_alpha() == false ); \
REQUIRE( reader2->has_alpha() == false ); \
REQUIRE( data.get_premultiplied() == true ); \
#define TIFF_ASSERT_NO_ALPHA_GRAY( data ) \
REQUIRE( tiff_reader.has_alpha() == false ); \
REQUIRE( reader->has_alpha() == false ); \
REQUIRE( tiff_reader2.has_alpha() == false ); \
REQUIRE( reader2->has_alpha() == false ); \
REQUIRE( data.get_premultiplied() == false ); \
#define TIFF_ASSERT_SIZE( data,reader ) \
REQUIRE( data.width() == reader->width() ); \
REQUIRE( data.height() == reader->height() ); \
#define TIFF_READ_ONE_PIXEL \
mapnik::image_any subimage = reader->read(1, 1, 1, 1); \
REQUIRE( subimage.width() == 1 ); \
REQUIRE( subimage.height() == 1 ); \
namespace {
template <typename Image>
struct test_image_traits
{
using value_type = mapnik::color;
static value_type const& get_value(mapnik::color const& c)
{
return c;
}
};
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template <>
struct test_image_traits<mapnik::image_gray8>
{
using value_type = std::uint8_t;
static value_type get_value(mapnik::color const& c)
{
return c.green(); // use green channel for gray scale images
}
};
template <typename Image>
Image generate_test_image()
{
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std::size_t tile_size = 16;
Image im(64, 64);
mapnik::color colors[] = {{mapnik::color("red")},
{mapnik::color("blue")},
{mapnik::color("green")},
{mapnik::color("yellow")}};
std::size_t index = 0;
for (std::size_t j = 0; j < im.height()/tile_size; ++j)
{
++index;
for (std::size_t i = 0; i < im.width()/tile_size; ++i)
{
++index;
for (std::size_t x = 0; x < tile_size; ++x)
{
for (std::size_t y = 0; y < tile_size; ++y)
{
auto value = test_image_traits<Image>::get_value(colors[index % 4]);
mapnik::set_pixel(im, i * tile_size + x, j * tile_size + y, value );
}
}
}
}
return im;
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}
template <typename Image1, typename Image2>
bool identical(Image1 const& im1, Image2 const& im2)
{
if ((im1.width() != im2.width()) || (im1.height() != im2.height()))
return false;
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for (std::size_t i = 0; i < im1.width(); ++i)
{
for (std::size_t j = 0; j < im1.height(); ++j)
{
if (im1(i,j) != im2(i,j)) return false;
}
}
return true;
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}
template <typename Image>
void test_tiff_reader(std::string const& pattern)
{
// generate expected image (rgba8 or gray8)
auto im = generate_test_image<Image>();
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for (auto const& path : mapnik::util::list_directory("test/data/tiff/"))
{
if (boost::iends_with(path,".tif")
&& boost::istarts_with(mapnik::util::basename(path), pattern))
{
mapnik::tiff_reader<source_type> tiff_reader(path);
auto width = tiff_reader.width();
auto height = tiff_reader.height();
{
// whole image
auto tiff = tiff_reader.read(0, 0, width, height);
CHECK(tiff.is<Image>());
auto im2 = tiff.get<Image>();
REQUIRE(identical(im, im2));
}
{
// portion
auto tiff = tiff_reader.read(11, 13, width - 11, height - 13);
CHECK(tiff.is<Image>());
auto im2 = tiff.get<Image>();
auto view = mapnik::image_view<Image>(11, 13, width, height, im);
REQUIRE(identical(view, im2));
}
}
}
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}
}
TEST_CASE("tiff io")
{
SECTION("tiff-reader rgb8+rgba8")
{
test_tiff_reader<mapnik::image_rgba8>("tiff_rgb");
}
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SECTION("tiff-reader gray8")
{
test_tiff_reader<mapnik::image_gray8>("tiff_gray");
}
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SECTION("scan rgb8 striped")
{
std::string filename("./test/data/tiff/scan_512x512_rgb8_striped.tif");
mapnik::tiff_reader<source_type> tiff_reader(filename);
REQUIRE( tiff_reader.width() == 512 );
REQUIRE( tiff_reader.height() == 512 );
REQUIRE( tiff_reader.planar_config() == PLANARCONFIG_CONTIG );
REQUIRE( tiff_reader.rows_per_strip() == 16 );
REQUIRE( tiff_reader.bits_per_sample() == 8 );
REQUIRE( tiff_reader.is_tiled() == false );
REQUIRE( tiff_reader.tile_width() == 0 );
REQUIRE( tiff_reader.tile_height() == 0 );
REQUIRE( tiff_reader.photometric() == PHOTOMETRIC_PALETTE );
REQUIRE( tiff_reader.compression() == COMPRESSION_NONE );
std::unique_ptr<mapnik::image_reader> reader(mapnik::get_image_reader(filename,"tiff"));
REQUIRE( reader->width() == 512 );
REQUIRE( reader->height() == 512 );
mapnik::util::file file(filename);
mapnik::tiff_reader<mapnik::util::char_array_buffer> tiff_reader2(file.data().get(),file.size());
REQUIRE( tiff_reader2.width() == 512 );
REQUIRE( tiff_reader2.height() == 512 );
std::unique_ptr<mapnik::image_reader> reader2(mapnik::get_image_reader(file.data().get(),file.size()));
REQUIRE( reader2->width() == 512 );
REQUIRE( reader2->height() == 512 );
mapnik::image_any data = reader->read(0, 0, reader->width(), reader->height());
REQUIRE( data.is<mapnik::image_rgba8>() == true );
TIFF_ASSERT_SIZE( data,reader );
TIFF_ASSERT_NO_ALPHA_RGB( data );
TIFF_READ_ONE_PIXEL
}
SECTION("scan rgb8 tiled") {
std::string filename("./test/data/tiff/scan_512x512_rgb8_tiled.tif");
mapnik::tiff_reader<source_type> tiff_reader(filename);
REQUIRE( tiff_reader.width() == 512 );
REQUIRE( tiff_reader.height() == 512 );
REQUIRE( tiff_reader.planar_config() == PLANARCONFIG_CONTIG );
REQUIRE( tiff_reader.rows_per_strip() == 0 );
REQUIRE( tiff_reader.bits_per_sample() == 8 );
REQUIRE( tiff_reader.is_tiled() == true );
REQUIRE( tiff_reader.tile_width() == 256 );
REQUIRE( tiff_reader.tile_height() == 256 );
REQUIRE( tiff_reader.photometric() == PHOTOMETRIC_PALETTE );
REQUIRE( tiff_reader.compression() == COMPRESSION_LZW );
std::unique_ptr<mapnik::image_reader> reader(mapnik::get_image_reader(filename,"tiff"));
REQUIRE( reader->width() == 512 );
REQUIRE( reader->height() == 512 );
mapnik::util::file file(filename);
mapnik::tiff_reader<mapnik::util::char_array_buffer> tiff_reader2(file.data().get(),file.size());
REQUIRE( tiff_reader2.width() == 512 );
REQUIRE( tiff_reader2.height() == 512 );
std::unique_ptr<mapnik::image_reader> reader2(mapnik::get_image_reader(file.data().get(),file.size()));
REQUIRE( reader2->width() == 512 );
REQUIRE( reader2->height() == 512 );
mapnik::image_any data = reader->read(0, 0, reader->width(), reader->height());
REQUIRE( data.is<mapnik::image_rgba8>() == true );
TIFF_ASSERT_SIZE( data,reader );
TIFF_ASSERT_NO_ALPHA_RGB( data );
TIFF_READ_ONE_PIXEL
}
SECTION("rgba8 striped") {
TIFF_ASSERT("./test/data/tiff/ndvi_256x256_rgba8_striped.tif")
REQUIRE( tiff_reader.rows_per_strip() == 1 );
REQUIRE( tiff_reader.bits_per_sample() == 8 );
REQUIRE( tiff_reader.is_tiled() == false );
REQUIRE( tiff_reader.tile_width() == 0 );
REQUIRE( tiff_reader.tile_height() == 0 );
REQUIRE( tiff_reader.photometric() == PHOTOMETRIC_RGB );
REQUIRE( tiff_reader.compression() == COMPRESSION_ADOBE_DEFLATE );
mapnik::image_any data = reader->read(0, 0, reader->width(), reader->height());
REQUIRE( data.is<mapnik::image_rgba8>() == true );
TIFF_ASSERT_SIZE( data,reader );
TIFF_ASSERT_ALPHA( data );
TIFF_READ_ONE_PIXEL
}
SECTION("rgba8 tiled") {
TIFF_ASSERT("./test/data/tiff/ndvi_256x256_rgba8_tiled.tif")
REQUIRE( tiff_reader.rows_per_strip() == 0 );
REQUIRE( tiff_reader.bits_per_sample() == 8 );
REQUIRE( tiff_reader.is_tiled() == true );
REQUIRE( tiff_reader.tile_width() == 256 );
REQUIRE( tiff_reader.tile_height() == 256 );
REQUIRE( tiff_reader.photometric() == PHOTOMETRIC_RGB );
REQUIRE( tiff_reader.compression() == COMPRESSION_LZW );
mapnik::image_any data = reader->read(0, 0, reader->width(), reader->height());
REQUIRE( data.is<mapnik::image_rgba8>() == true );
TIFF_ASSERT_SIZE( data,reader );
TIFF_ASSERT_ALPHA( data );
TIFF_READ_ONE_PIXEL
}
SECTION("rgb8 striped") {
TIFF_ASSERT("./test/data/tiff/ndvi_256x256_rgb8_striped.tif")
REQUIRE( tiff_reader.rows_per_strip() == 10 );
REQUIRE( tiff_reader.bits_per_sample() == 8 );
REQUIRE( tiff_reader.is_tiled() == false );
REQUIRE( tiff_reader.tile_width() == 0 );
REQUIRE( tiff_reader.tile_height() == 0 );
REQUIRE( tiff_reader.photometric() == PHOTOMETRIC_RGB );
REQUIRE( tiff_reader.compression() == COMPRESSION_NONE );
mapnik::image_any data = reader->read(0, 0, reader->width(), reader->height());
REQUIRE( data.is<mapnik::image_rgba8>() == true );
TIFF_ASSERT_SIZE( data,reader );
TIFF_ASSERT_NO_ALPHA_RGB( data );
TIFF_READ_ONE_PIXEL
}
SECTION("rgb8 tiled") {
TIFF_ASSERT("./test/data/tiff/ndvi_256x256_rgb8_tiled.tif")
REQUIRE( tiff_reader.rows_per_strip() == 0 );
REQUIRE( tiff_reader.bits_per_sample() == 8 );
REQUIRE( tiff_reader.is_tiled() == true );
REQUIRE( tiff_reader.tile_width() == 32 );
REQUIRE( tiff_reader.tile_height() == 32 );
REQUIRE( tiff_reader.photometric() == PHOTOMETRIC_RGB );
REQUIRE( tiff_reader.compression() == COMPRESSION_LZW );
mapnik::image_any data = reader->read(0, 0, reader->width(), reader->height());
REQUIRE( data.is<mapnik::image_rgba8>() == true );
TIFF_ASSERT_SIZE( data,reader );
TIFF_ASSERT_NO_ALPHA_RGB( data );
TIFF_READ_ONE_PIXEL
}
SECTION("gray8 striped") {
TIFF_ASSERT("./test/data/tiff/ndvi_256x256_gray8_striped.tif")
REQUIRE( tiff_reader.rows_per_strip() == 32 );
REQUIRE( tiff_reader.bits_per_sample() == 8 );
REQUIRE( tiff_reader.is_tiled() == false );
REQUIRE( tiff_reader.tile_width() == 0 );
REQUIRE( tiff_reader.tile_height() == 0 );
REQUIRE( tiff_reader.photometric() == PHOTOMETRIC_MINISBLACK );
REQUIRE( tiff_reader.compression() == COMPRESSION_NONE );
mapnik::image_any data = reader->read(0, 0, reader->width(), reader->height());
REQUIRE( data.is<mapnik::image_gray8>() == true );
TIFF_ASSERT_SIZE( data,reader );
TIFF_ASSERT_NO_ALPHA_GRAY( data );
TIFF_READ_ONE_PIXEL
}
SECTION("gray8 tiled") {
TIFF_ASSERT("./test/data/tiff/ndvi_256x256_gray8_tiled.tif")
REQUIRE( tiff_reader.rows_per_strip() == 0 );
REQUIRE( tiff_reader.bits_per_sample() == 8 );
REQUIRE( tiff_reader.is_tiled() == true );
REQUIRE( tiff_reader.tile_width() == 256 );
REQUIRE( tiff_reader.tile_height() == 256 );
REQUIRE( tiff_reader.photometric() == PHOTOMETRIC_MINISBLACK );
REQUIRE( tiff_reader.compression() == COMPRESSION_LZW );
mapnik::image_any data = reader->read(0, 0, reader->width(), reader->height());
REQUIRE( data.is<mapnik::image_gray8>() == true );
TIFF_ASSERT_SIZE( data,reader );
TIFF_ASSERT_NO_ALPHA_GRAY( data );
TIFF_READ_ONE_PIXEL
}
SECTION("gray16 striped") {
TIFF_ASSERT("./test/data/tiff/ndvi_256x256_gray16_striped.tif")
REQUIRE( tiff_reader.rows_per_strip() == 16 );
REQUIRE( tiff_reader.bits_per_sample() == 16 );
REQUIRE( tiff_reader.is_tiled() == false );
REQUIRE( tiff_reader.tile_width() == 0 );
REQUIRE( tiff_reader.tile_height() == 0 );
REQUIRE( tiff_reader.photometric() == PHOTOMETRIC_MINISBLACK );
REQUIRE( tiff_reader.compression() == COMPRESSION_NONE );
mapnik::image_any data = reader->read(0, 0, reader->width(), reader->height());
REQUIRE( data.is<mapnik::image_gray16>() == true );
TIFF_ASSERT_SIZE( data,reader );
TIFF_ASSERT_NO_ALPHA_GRAY( data );
TIFF_READ_ONE_PIXEL
}
SECTION("gray16 tiled") {
TIFF_ASSERT("./test/data/tiff/ndvi_256x256_gray16_tiled.tif")
REQUIRE( tiff_reader.rows_per_strip() == 0 );
REQUIRE( tiff_reader.bits_per_sample() == 16 );
REQUIRE( tiff_reader.is_tiled() == true );
REQUIRE( tiff_reader.tile_width() == 256 );
REQUIRE( tiff_reader.tile_height() == 256 );
REQUIRE( tiff_reader.photometric() == PHOTOMETRIC_MINISBLACK );
REQUIRE( tiff_reader.compression() == COMPRESSION_LZW );
mapnik::image_any data = reader->read(0, 0, reader->width(), reader->height());
REQUIRE( data.is<mapnik::image_gray16>() == true );
TIFF_ASSERT_SIZE( data,reader );
TIFF_ASSERT_NO_ALPHA_GRAY( data );
TIFF_READ_ONE_PIXEL
}
SECTION("gray32f striped") {
TIFF_ASSERT("./test/data/tiff/ndvi_256x256_gray32f_striped.tif")
REQUIRE( tiff_reader.rows_per_strip() == 8 );
REQUIRE( tiff_reader.bits_per_sample() == 32 );
REQUIRE( tiff_reader.is_tiled() == false );
REQUIRE( tiff_reader.tile_width() == 0 );
REQUIRE( tiff_reader.tile_height() == 0 );
REQUIRE( tiff_reader.photometric() == PHOTOMETRIC_MINISBLACK );
REQUIRE( tiff_reader.compression() == COMPRESSION_NONE );
mapnik::image_any data = reader->read(0, 0, reader->width(), reader->height());
REQUIRE( data.is<mapnik::image_gray32f>() == true );
TIFF_ASSERT_SIZE( data,reader );
TIFF_ASSERT_NO_ALPHA_GRAY( data );
TIFF_READ_ONE_PIXEL
}
SECTION("gray32f tiled") {
TIFF_ASSERT("./test/data/tiff/ndvi_256x256_gray32f_tiled.tif")
REQUIRE( tiff_reader.rows_per_strip() == 0 );
REQUIRE( tiff_reader.bits_per_sample() == 32 );
REQUIRE( tiff_reader.is_tiled() == true );
REQUIRE( tiff_reader.tile_width() == 256 );
REQUIRE( tiff_reader.tile_height() == 256 );
REQUIRE( tiff_reader.photometric() == PHOTOMETRIC_MINISBLACK );
REQUIRE( tiff_reader.compression() == COMPRESSION_LZW );
mapnik::image_any data = reader->read(0, 0, reader->width(), reader->height());
REQUIRE( data.is<mapnik::image_gray32f>() == true );
TIFF_ASSERT_SIZE( data,reader );
TIFF_ASSERT_NO_ALPHA_GRAY( data );
TIFF_READ_ONE_PIXEL
}
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}
#endif