Index: cc/math_util.cc |
diff --git a/cc/math_util.cc b/cc/math_util.cc |
index d90eb090abef6fbc004f87cedc0a3188419486cf..417e0c91d70a144c3e67788d9d5e808bd6679c6d 100644 |
--- a/cc/math_util.cc |
+++ b/cc/math_util.cc |
@@ -66,9 +66,9 @@ static HomogeneousCoordinate computeClippedPointForEdge(const HomogeneousCoordin |
// Once paramter t is known, the rest of p can be computed via p = (1-t) h1 + (t) h2. |
// Technically this is a special case of the following assertion, but its a good idea to keep it an explicit sanity check here. |
- ASSERT(h2.w != h1.w); |
+ DCHECK(h2.w != h1.w); |
// Exactly one of h1 or h2 (but not both) must be on the negative side of the w plane when this is called. |
- ASSERT(h1.shouldBeClipped() ^ h2.shouldBeClipped()); |
+ DCHECK(h1.shouldBeClipped() ^ h2.shouldBeClipped()); |
double w = 0.00001; // or any positive non-zero small epsilon |
@@ -165,7 +165,7 @@ void CCMathUtil::mapClippedQuad(const WebTransformationMatrix& transform, const |
if (h4.shouldBeClipped() ^ h1.shouldBeClipped()) |
addVertexToClippedQuad(computeClippedPointForEdge(h4, h1).cartesianPoint2d(), clippedQuad, numVerticesInClippedQuad); |
- ASSERT(numVerticesInClippedQuad <= 8); |
+ DCHECK(numVerticesInClippedQuad <= 8); |
} |
FloatRect CCMathUtil::computeEnclosingRectOfVertices(FloatPoint vertices[], int numVertices) |