The following commits fix and/or improve the output of some tests.
Updating the ref images before fixing the code allows to check that
the fix is correct and makes it easy to find out which tests are fixed
by each commit.
Sometimes it is useful to be able to package the result of a run of
the testsuite. This new target creates an archive containing the html
page and at least all the files it links to.
The archive might contain some unneeded images.
This was found via cairo-perf-micro which sometimes triggered this bug in its
mask-similar_image-* test.
Signed-off-by: Uli Schlachter <psychon@znc.in>
The old radial gradient tests were actually drawing the same gradients
with different operators (OVER/SOURCE) and operations (paint/mask).
It is possible to refactor them to share the gradient construction
code. This makes it easy to change the gradient shape in all of them
to test more interesting combinations.
Instead of testing 16 generic positions we are now testing just 7
cases, which correspond to every possible combination of the relative
size and position of the two circles defining the gradient. In
particular we are now testing a constant radius gradient and gradients
with tangent circles.
mesh-pattern tests a mesh pattern with non-opaque two overlapping
patches.
mesh-pattern-accuracy tests the accuracy of the color computed in each
point of a patch. It can point out defects in rasterizers which rely
on mesh subdivision only use the mesh shape instead of both shape and
color to decide when the tensor-product patches can be approximated
with Gouraud-shaded triangles.
mesh-pattern-conical is an example of how a conical gradient can be
approximated with a mesh pattern.
mesh-pattern-control-points tests a mesh pattern with control points
in non-default position to verify that their position affects the
color as expected.
mesh-pattern-fold tests a mesh pattern with a patch which folds along
both sides.
mesh-pattern-overlap tests a mesh pattern with a patch which folds
along just one side.
mesh-pattern-transformed tests a mesh pattern with non-identity
transform matrix.
The recent (and not-so-recent) changes in gradient code changed the
results of some tests involving gradients.
radial-gradient-* tests are marked XFAIL for pdf because poppler is
not sampling the color function with a sufficient frequency, but they
look correct in Adobe Reader.
The handling of angles above 2pi in cairo_arc is not very solid and is
basically untested.
This test should ensure that changes in the behavior will be noticed
by the testsuite.
The rectilinear scan converter assumes disjoint rects as input, but
cairo-image passes intersecting rectangles to it.
This test shows that image and any backends passing through it for the
rasterization (fallbacks, vector backends whose renderer is
cairo-based) fail in compute the corners of intersecting rectangles
correctly.
Merge clip-*-unbounded tests and add self-intersections to the paths
that are drawn. This exposes a bug in the unbounded fixup code in quartz.
Signed-off-by: Chris Wilson <chris@chris-wilson.co.uk>
Use two levels of pthread support: a minimal level used to
build cairo itself, and a full level to build threaded apps
which want to use cairo. The minimal level tries to use
pthread stubs from libc if possible, but falls back to the
full level if that's not possible. We use CFLAGS=-D_REENTRANT
LIBS=-lpthread to find a real pthread library since that seems
to work on every unix-like test box we can get our hands on.
halo uses text_path + stroke + (fill | show_text) to generate a "halo"
around the string. This is to try to replicate a bug described by Ian
Britten in the PDF backend where the rendering of the show_text looked
distorted compared to the stroke.
A couple of different shapes that aim to test the tessellation side of
the rasterisers more... And worryingly there does seem to be an
unexpected systematic error.
This test case should be much clearer than half-coverage over what it
purports to actually test. In each pixel, it draws a single geometric
primitive that coverages a known percentage of the pixel and then we
measure how close the rasterisers are to that ideal.
Add some overlapping triangles (coarse enough for them to be resolved
using Cairo's 24.8 fixed point without loss of precision) to exercise
handling of overlapping subpixel geometry.
Test handling of source clipping with an image - principally to check
handling of mime types and zero-copy image snapshotting in the vector
surfaces and ensure that they work with subsurface patterns as well.
Add tests to ensure that modifications to the subsurface via the
original surface are tracked by the subsurface, i.e. that any snapshots
are detached upon modification of the parent as well as modification of
itself and vice versa.
