skia2/tests/OctoBoundsTest.cpp

/*
 * Copyright 2019 Google Inc.
 *
 * Use of this source code is governed by a BSD-style license that can be
 * found in the LICENSE file.
 */

#include "include/utils/SkRandom.h"
#include "src/gpu/ccpr/GrOctoBounds.h"
#include "tests/Test.h"

using namespace skiatest;

constexpr static float kEpsilon = 1e-3f;

static int numClipsOut = 0;
static int numIntersectClips = 0;

// Ensures devBounds and devBounds45 are valid. Namely, that they are both tight bounding boxes
// around a valid octagon.
static void validate_octo_bounds(
        Reporter* reporter, const SkIRect& clipRect, const GrOctoBounds& octoBounds) {
    // Verify dev bounds are inside the clip rect.
    REPORTER_ASSERT(reporter, octoBounds.left() >= (float)clipRect.left() - kEpsilon);
    REPORTER_ASSERT(reporter, octoBounds.top() >= (float)clipRect.top() - kEpsilon);
    REPORTER_ASSERT(reporter, octoBounds.right() <= (float)clipRect.right() + kEpsilon);
    REPORTER_ASSERT(reporter, octoBounds.bottom() <= (float)clipRect.bottom() + kEpsilon);

    octoBounds.validateBoundsAreTight([reporter](
            bool cond, const char* file, int line, const char* code) {
        if (!cond) {
            reporter->reportFailedWithContext(skiatest::Failure(file, line, code, SkString()));
        }
    });
}

// This is a variant of SkRandom::nextRangeU that can handle negative numbers. As currently written,
// and assuming two's compliment, it would probably work to just call the existing nextRangeU
// implementation with negative value(s), but we go through this method as an extra precaution.
static int next_range_i(SkRandom* rand, int min, int max) {
    int u = rand->nextRangeU(0, max - min);
    return u + min;
}

static void test_octagon(Reporter* reporter, SkRandom* rand, float l, float t, float r, float b) {
    for (int i = 0; i < 20; ++i) {
        float minL45 = GrOctoBounds::Get_x45(l,b);
        float maxL45 = std::min(GrOctoBounds::Get_x45(r,b), GrOctoBounds::Get_x45(l,t));
        float minT45 = GrOctoBounds::Get_y45(l,t);
        float maxT45 = std::min(GrOctoBounds::Get_y45(l,b), GrOctoBounds::Get_y45(r,t));
        float minR45 = std::max(GrOctoBounds::Get_x45(l,t), GrOctoBounds::Get_x45(r,b));
        float maxR45 = GrOctoBounds::Get_x45(r,t);
        float minB45 = std::max(GrOctoBounds::Get_y45(r,t), GrOctoBounds::Get_y45(l,b));
        float maxB45 = GrOctoBounds::Get_y45(r,b);

        // Pick somewhat valid 45 degree bounds.
        float l45 = rand->nextRangeF(minL45, maxL45);
        float t45 = rand->nextRangeF(minT45, maxT45);
        float r45 = rand->nextRangeF(minR45, maxR45);
        float b45 = rand->nextRangeF(minB45, maxB45);

        // Grow out diagonal corners if too tight, making 45 bounds valid.
        std::function<void()> growOutDiagonals[4] = {
            [&]() {  // Push top-left diagonal corner outside left edge.
                float miss = GrOctoBounds::Get_x(l45,t45) - l;
                if (miss > 0) {
                    // x = (x45 + y45)/2
                    l45 -= miss;
                    if (l45 < minL45) {
                        t45 -= minL45 - l45;
                        l45 = minL45;
                    }
                    t45 -= miss;
                    if (t45 < minT45) {
                        l45 -= minT45 - t45;
                        t45 = minT45;
                    }
                }
            },
            [&]() {  // Push top-right diagonal corner outside top edge.
                float miss = GrOctoBounds::Get_y(r45,t45) - t;
                if (miss > 0) {
                    // y = (y45 - x45)/2
                    r45 += miss;
                    if (r45 > maxR45) {
                        t45 -= r45 - maxR45;
                        r45 = maxR45;
                    }
                    t45 -= miss;
                    if (t45 < minT45) {
                        r45 += minT45 - t45;
                        t45 = minT45;
                    }
                }
            },
            [&]() {  // Push bottom-right diagonal corner outside right edge.
                float miss = r - GrOctoBounds::Get_x(r45,b45);
                if (miss > 0) {
                    // x = (x45 + y45)/2
                    r45 += miss;
                    if (r45 > maxR45) {
                        b45 += r45 - maxR45;
                        r45 = maxR45;
                    }
                    b45 += miss;
                    if (b45 > maxB45) {
                        r45 += b45 - maxB45;
                        b45 = maxB45;
                    }
                }
            },
            [&]() {  // Push bottom-left diagonal corner outside bottom edge.
                float miss = b - GrOctoBounds::Get_y(l45,b45);
                if (miss > 0) {
                    // y = (y45 - x45)/2
                    l45 -= miss;
                    if (l45 < minL45) {
                        b45 += minL45 - l45;
                        l45 = minL45;
                    }
                    b45 += miss;
                    if (b45 > maxB45) {
                        l45 -= b45 - maxB45;
                        b45 = maxB45;
                    }
                }
            },
        };
        // Shuffle.
        for (int i = 0; i < 10; ++i) {
            std::swap(growOutDiagonals[rand->nextRangeU(0, 3)],
                      growOutDiagonals[rand->nextRangeU(0, 3)]);
        }
        for (const auto& f : growOutDiagonals) {
            f();
        }

        GrOctoBounds octoBounds(SkRect::MakeLTRB(l,t,r,b), SkRect::MakeLTRB(l45,t45,r45,b45));

        SkIRect devIBounds;
        octoBounds.roundOut(&devIBounds);

        // Test a clip rect that completely encloses the octagon.
        bool clipSuccess = octoBounds.clip(devIBounds);
        REPORTER_ASSERT(reporter, clipSuccess);
        // Should not have clipped anything.
        REPORTER_ASSERT(reporter, octoBounds == GrOctoBounds({l,t,r,b}, {l45,t45,r45,b45}));
        validate_octo_bounds(reporter, devIBounds, octoBounds);

        // Test a bunch of random clip rects.
        for (int j = 0; j < 20; ++j) {
            SkIRect clipRect;
            do {
                clipRect.fLeft = next_range_i(rand, devIBounds.left(), devIBounds.right() - 1);
                clipRect.fTop = next_range_i(rand, devIBounds.top(), devIBounds.bottom() - 1);
                clipRect.fRight = next_range_i(rand, clipRect.left() + 1, devIBounds.right());
                clipRect.fBottom = next_range_i(rand, clipRect.top() + 1, devIBounds.bottom());
            } while (clipRect == devIBounds);

            GrOctoBounds octoBoundsClipped = octoBounds;
            if (!octoBoundsClipped.clip(clipRect)) {
                // Ensure clipRect is completely outside one of the diagonals.
                float il = (float)clipRect.left();
                float it = (float)clipRect.top();
                float ir = (float)clipRect.right();
                float ib = (float)clipRect.bottom();
                REPORTER_ASSERT(reporter,
                        GrOctoBounds::Get_x45(ir,it) <= l45 + kEpsilon ||
                        GrOctoBounds::Get_y45(ir,ib) <= t45 + kEpsilon ||
                        GrOctoBounds::Get_x45(il,ib) >= r45 - kEpsilon ||
                        GrOctoBounds::Get_y45(il,it) >= b45 - kEpsilon);
                ++numClipsOut;
            } else {
                validate_octo_bounds(reporter, clipRect, octoBoundsClipped);
                ++numIntersectClips;
            }
        }
    }

}

DEF_TEST(OctoBounds, reporter) {
    numClipsOut = 0;
    numIntersectClips = 0;

    SkRandom rand;
    test_octagon(reporter, &rand, 0, 0, 100, 100);
    test_octagon(reporter, &rand, -2, 0, 2, 100);
    test_octagon(reporter, &rand, 0, -10, 100, 0);
    // We can't test Infs or NaNs because they trigger internal asserts when setting GrOctoBounds.

    // Verify that our random clip testing hit both types of clip.
    REPORTER_ASSERT(reporter, numClipsOut > 0);
    REPORTER_ASSERT(reporter, numIntersectClips > 0);
}
ccpr: Clip path octo bounds by the scissor Finds the (octagonal) intersection of the path's bounding octagon and the scissor, and draws that octagon instead. This allows us to avoid ever using the scissor when drawing paths to the main canvas. It will also let us use that same octagon without scissor when resolving the stencil buffer to coverage in MSAA mode. Bug: skia: Change-Id: Ia7fe60343424bc77532fa9919d3fa108337a5d63 Reviewed-on: https://skia-review.googlesource.com/c/skia/+/212840 Commit-Queue: Chris Dalton <csmartdalton@google.com> Reviewed-by: Robert Phillips <robertphillips@google.com> 2019-05-13 14:57:53 +00:00			`/*`
			`* Copyright 2019 Google Inc.`
			`*`
			`* Use of this source code is governed by a BSD-style license that can be`
			`* found in the LICENSE file.`
			`*/`

			`#include "include/utils/SkRandom.h"`
			`#include "src/gpu/ccpr/GrOctoBounds.h"`
			`#include "tests/Test.h"`

			`using namespace skiatest;`

			`constexpr static float kEpsilon = 1e-3f;`

			`static int numClipsOut = 0;`
			`static int numIntersectClips = 0;`

			`// Ensures devBounds and devBounds45 are valid. Namely, that they are both tight bounding boxes`
			`// around a valid octagon.`
			`static void validate_octo_bounds(`
			`Reporter* reporter, const SkIRect& clipRect, const GrOctoBounds& octoBounds) {`
			`// Verify dev bounds are inside the clip rect.`
			`REPORTER_ASSERT(reporter, octoBounds.left() >= (float)clipRect.left() - kEpsilon);`
			`REPORTER_ASSERT(reporter, octoBounds.top() >= (float)clipRect.top() - kEpsilon);`
			`REPORTER_ASSERT(reporter, octoBounds.right() <= (float)clipRect.right() + kEpsilon);`
			`REPORTER_ASSERT(reporter, octoBounds.bottom() <= (float)clipRect.bottom() + kEpsilon);`

			`octoBounds.validateBoundsAreTight([reporter](`
			`bool cond, const char* file, int line, const char* code) {`
			`if (!cond) {`
			`reporter->reportFailedWithContext(skiatest::Failure(file, line, code, SkString()));`
			`}`
			`});`
			`}`

			`// This is a variant of SkRandom::nextRangeU that can handle negative numbers. As currently written,`
			`// and assuming two's compliment, it would probably work to just call the existing nextRangeU`
			`// implementation with negative value(s), but we go through this method as an extra precaution.`
			`static int next_range_i(SkRandom* rand, int min, int max) {`
			`int u = rand->nextRangeU(0, max - min);`
			`return u + min;`
			`}`

			`static void test_octagon(Reporter* reporter, SkRandom* rand, float l, float t, float r, float b) {`
			`for (int i = 0; i < 20; ++i) {`
			`float minL45 = GrOctoBounds::Get_x45(l,b);`
			`float maxL45 = std::min(GrOctoBounds::Get_x45(r,b), GrOctoBounds::Get_x45(l,t));`
			`float minT45 = GrOctoBounds::Get_y45(l,t);`
			`float maxT45 = std::min(GrOctoBounds::Get_y45(l,b), GrOctoBounds::Get_y45(r,t));`
			`float minR45 = std::max(GrOctoBounds::Get_x45(l,t), GrOctoBounds::Get_x45(r,b));`
			`float maxR45 = GrOctoBounds::Get_x45(r,t);`
			`float minB45 = std::max(GrOctoBounds::Get_y45(r,t), GrOctoBounds::Get_y45(l,b));`
			`float maxB45 = GrOctoBounds::Get_y45(r,b);`

			`// Pick somewhat valid 45 degree bounds.`
			`float l45 = rand->nextRangeF(minL45, maxL45);`
			`float t45 = rand->nextRangeF(minT45, maxT45);`
			`float r45 = rand->nextRangeF(minR45, maxR45);`
			`float b45 = rand->nextRangeF(minB45, maxB45);`

			`// Grow out diagonal corners if too tight, making 45 bounds valid.`
			`std::function<void()> growOutDiagonals[4] = {`
			`[&]() { // Push top-left diagonal corner outside left edge.`
			`float miss = GrOctoBounds::Get_x(l45,t45) - l;`
			`if (miss > 0) {`
			`// x = (x45 + y45)/2`
			`l45 -= miss;`
			`if (l45 < minL45) {`
			`t45 -= minL45 - l45;`
			`l45 = minL45;`
			`}`
			`t45 -= miss;`
			`if (t45 < minT45) {`
			`l45 -= minT45 - t45;`
			`t45 = minT45;`
			`}`
			`}`
			`},`
			`[&]() { // Push top-right diagonal corner outside top edge.`
			`float miss = GrOctoBounds::Get_y(r45,t45) - t;`
			`if (miss > 0) {`
			`// y = (y45 - x45)/2`
			`r45 += miss;`
			`if (r45 > maxR45) {`
			`t45 -= r45 - maxR45;`
			`r45 = maxR45;`
			`}`
			`t45 -= miss;`
			`if (t45 < minT45) {`
			`r45 += minT45 - t45;`
			`t45 = minT45;`
			`}`
			`}`
			`},`
			`[&]() { // Push bottom-right diagonal corner outside right edge.`
			`float miss = r - GrOctoBounds::Get_x(r45,b45);`
			`if (miss > 0) {`
			`// x = (x45 + y45)/2`
			`r45 += miss;`
			`if (r45 > maxR45) {`
			`b45 += r45 - maxR45;`
			`r45 = maxR45;`
			`}`
			`b45 += miss;`
			`if (b45 > maxB45) {`
			`r45 += b45 - maxB45;`
			`b45 = maxB45;`
			`}`
			`}`
			`},`
			`[&]() { // Push bottom-left diagonal corner outside bottom edge.`
			`float miss = b - GrOctoBounds::Get_y(l45,b45);`
			`if (miss > 0) {`
			`// y = (y45 - x45)/2`
			`l45 -= miss;`
			`if (l45 < minL45) {`
			`b45 += minL45 - l45;`
			`l45 = minL45;`
			`}`
			`b45 += miss;`
			`if (b45 > maxB45) {`
			`l45 -= b45 - maxB45;`
			`b45 = maxB45;`
			`}`
			`}`
			`},`
			`};`
			`// Shuffle.`
			`for (int i = 0; i < 10; ++i) {`
			`std::swap(growOutDiagonals[rand->nextRangeU(0, 3)],`
			`growOutDiagonals[rand->nextRangeU(0, 3)]);`
			`}`
			`for (const auto& f : growOutDiagonals) {`
			`f();`
			`}`

			`GrOctoBounds octoBounds(SkRect::MakeLTRB(l,t,r,b), SkRect::MakeLTRB(l45,t45,r45,b45));`

			`SkIRect devIBounds;`
			`octoBounds.roundOut(&devIBounds);`

			`// Test a clip rect that completely encloses the octagon.`
			`bool clipSuccess = octoBounds.clip(devIBounds);`
			`REPORTER_ASSERT(reporter, clipSuccess);`
			`// Should not have clipped anything.`
			`REPORTER_ASSERT(reporter, octoBounds == GrOctoBounds({l,t,r,b}, {l45,t45,r45,b45}));`
			`validate_octo_bounds(reporter, devIBounds, octoBounds);`

			`// Test a bunch of random clip rects.`
			`for (int j = 0; j < 20; ++j) {`
			`SkIRect clipRect;`
			`do {`
			`clipRect.fLeft = next_range_i(rand, devIBounds.left(), devIBounds.right() - 1);`
			`clipRect.fTop = next_range_i(rand, devIBounds.top(), devIBounds.bottom() - 1);`
			`clipRect.fRight = next_range_i(rand, clipRect.left() + 1, devIBounds.right());`
			`clipRect.fBottom = next_range_i(rand, clipRect.top() + 1, devIBounds.bottom());`
			`} while (clipRect == devIBounds);`

			`GrOctoBounds octoBoundsClipped = octoBounds;`
			`if (!octoBoundsClipped.clip(clipRect)) {`
			`// Ensure clipRect is completely outside one of the diagonals.`
			`float il = (float)clipRect.left();`
			`float it = (float)clipRect.top();`
			`float ir = (float)clipRect.right();`
			`float ib = (float)clipRect.bottom();`
			`REPORTER_ASSERT(reporter,`
			`GrOctoBounds::Get_x45(ir,it) <= l45 + kEpsilon \|\|`
			`GrOctoBounds::Get_y45(ir,ib) <= t45 + kEpsilon \|\|`
			`GrOctoBounds::Get_x45(il,ib) >= r45 - kEpsilon \|\|`
			`GrOctoBounds::Get_y45(il,it) >= b45 - kEpsilon);`
			`++numClipsOut;`
			`} else {`
			`validate_octo_bounds(reporter, clipRect, octoBoundsClipped);`
			`++numIntersectClips;`
			`}`
			`}`
			`}`

			`}`

			`DEF_TEST(OctoBounds, reporter) {`
			`numClipsOut = 0;`
			`numIntersectClips = 0;`

			`SkRandom rand;`
			`test_octagon(reporter, &rand, 0, 0, 100, 100);`
			`test_octagon(reporter, &rand, -2, 0, 2, 100);`
			`test_octagon(reporter, &rand, 0, -10, 100, 0);`
			`// We can't test Infs or NaNs because they trigger internal asserts when setting GrOctoBounds.`

Remove "sanity"/"insane" to comply with Android's inclusive language guidance See https://source.android.com/setup/contribute/respectful-code for reference Bug: 162536543 Change-Id: Ia9c81c2251ac7bf4eef6d37799741612989fc9c0 Reviewed-on: https://skia-review.googlesource.com/c/skia/+/307228 Reviewed-by: Mike Klein <mtklein@google.com> Commit-Queue: Leon Scroggins <scroggo@google.com> 2020-07-31 18:09:06 +00:00			`// Verify that our random clip testing hit both types of clip.`
ccpr: Clip path octo bounds by the scissor Finds the (octagonal) intersection of the path's bounding octagon and the scissor, and draws that octagon instead. This allows us to avoid ever using the scissor when drawing paths to the main canvas. It will also let us use that same octagon without scissor when resolving the stencil buffer to coverage in MSAA mode. Bug: skia: Change-Id: Ia7fe60343424bc77532fa9919d3fa108337a5d63 Reviewed-on: https://skia-review.googlesource.com/c/skia/+/212840 Commit-Queue: Chris Dalton <csmartdalton@google.com> Reviewed-by: Robert Phillips <robertphillips@google.com> 2019-05-13 14:57:53 +00:00			`REPORTER_ASSERT(reporter, numClipsOut > 0);`
			`REPORTER_ASSERT(reporter, numIntersectClips > 0);`
			`}`