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authorGravatar reed@google.com <reed@google.com@2bbb7eff-a529-9590-31e7-b0007b416f81>2011-05-15 04:08:24 +0000
committerGravatar reed@google.com <reed@google.com@2bbb7eff-a529-9590-31e7-b0007b416f81>2011-05-15 04:08:24 +0000
commit04863fa14a44ddf85acbc6268690ebc3f0d1d6db (patch)
treed0426edf125177122a4bf52c29cbe6f020ba947b /src
parenta8fd79d407ce056d32316932dce8b898d932ae6d (diff)
add Convexity enum to SkPath
git-svn-id: http://skia.googlecode.com/svn/trunk@1324 2bbb7eff-a529-9590-31e7-b0007b416f81
Diffstat (limited to 'src')
-rw-r--r--src/core/SkPath.cpp139
1 files changed, 134 insertions, 5 deletions
diff --git a/src/core/SkPath.cpp b/src/core/SkPath.cpp
index 704863cc87..fa6b3b9f66 100644
--- a/src/core/SkPath.cpp
+++ b/src/core/SkPath.cpp
@@ -97,7 +97,7 @@ static void compute_pt_bounds(SkRect* bounds, const SkTDArray<SkPoint>& pts) {
////////////////////////////////////////////////////////////////////////////
SkPath::SkPath() : fBoundsIsDirty(true), fFillType(kWinding_FillType) {
- fIsConvex = false; // really should be kUnknown
+ fConvexity = kUnknown_Convexity;
#ifdef ANDROID
fGenerationID = 0;
#endif
@@ -125,7 +125,7 @@ SkPath& SkPath::operator=(const SkPath& src) {
fVerbs = src.fVerbs;
fFillType = src.fFillType;
fBoundsIsDirty = src.fBoundsIsDirty;
- fIsConvex = src.fIsConvex;
+ fConvexity = src.fConvexity;
GEN_ID_INC;
}
SkDEBUGCODE(this->validate();)
@@ -148,7 +148,7 @@ void SkPath::swap(SkPath& other) {
fVerbs.swap(other.fVerbs);
SkTSwap<uint8_t>(fFillType, other.fFillType);
SkTSwap<uint8_t>(fBoundsIsDirty, other.fBoundsIsDirty);
- SkTSwap<uint8_t>(fIsConvex, other.fIsConvex);
+ SkTSwap<uint8_t>(fConvexity, other.fConvexity);
GEN_ID_INC;
}
}
@@ -166,7 +166,7 @@ void SkPath::reset() {
fVerbs.reset();
GEN_ID_INC;
fBoundsIsDirty = true;
- fIsConvex = false; // really should be kUnknown
+ fConvexity = kUnknown_Convexity;
}
void SkPath::rewind() {
@@ -176,7 +176,7 @@ void SkPath::rewind() {
fVerbs.rewind();
GEN_ID_INC;
fBoundsIsDirty = true;
- fIsConvex = false; // really should be kUnknown
+ fConvexity = kUnknown_Convexity;
}
bool SkPath::isEmpty() const {
@@ -244,6 +244,13 @@ void SkPath::computeBounds() const {
compute_pt_bounds(&fBounds, fPts);
}
+void SkPath::setConvexity(Convexity c) {
+ if (fConvexity != c) {
+ fConvexity = c;
+ GEN_ID_INC;
+ }
+}
+
//////////////////////////////////////////////////////////////////////////////
// Construction methods
@@ -1382,3 +1389,125 @@ void SkPath::validate() const {
}
#endif
+///////////////////////////////////////////////////////////////////////////////
+
+/**
+ * Returns -1 || 0 || 1 depending on the sign of value:
+ * -1 if value < 0
+ * 0 if vlaue == 0
+ * 1 if value > 0
+ */
+static int SkScalarSign(SkScalar value) {
+ return value < 0 ? -1 : (value > 0);
+}
+
+static int CrossProductSign(const SkVector& a, const SkVector& b) {
+ return SkScalarSign(SkPoint::CrossProduct(a, b));
+}
+
+// only valid for a single contour
+struct Convexicator {
+ Convexicator() : fPtCount(0), fConvexity(SkPath::kUnknown_Convexity) {
+ fSign = 0;
+ // warnings
+ fCurrPt.set(0, 0);
+ fVec0.set(0, 0);
+ fVec1.set(0, 0);
+ fFirstVec.set(0, 0);
+ }
+
+ SkPath::Convexity getConvexity() const { return fConvexity; }
+
+ void addPt(const SkPoint& pt) {
+ if (SkPath::kConcave_Convexity == fConvexity) {
+ return;
+ }
+
+ if (0 == fPtCount) {
+ fCurrPt = pt;
+ ++fPtCount;
+ } else {
+ SkVector vec = pt - fCurrPt;
+ if (vec.fX || vec.fY) {
+ fCurrPt = pt;
+ if (++fPtCount == 2) {
+ fFirstVec = fVec1 = vec;
+ } else {
+ SkASSERT(fPtCount > 2);
+ this->addVec(vec);
+ }
+ }
+ }
+ }
+
+ void close() {
+ if (fPtCount > 2) {
+ this->addVec(fFirstVec);
+ }
+ }
+
+private:
+ void addVec(const SkVector& vec) {
+ SkASSERT(vec.fX || vec.fY);
+ fVec0 = fVec1;
+ fVec1 = vec;
+ int sign = CrossProductSign(fVec0, fVec1);
+ if (0 == fSign) {
+ fSign = sign;
+ } else if (sign) {
+ if (fSign == sign) {
+ fConvexity = SkPath::kConvex_Convexity;
+ } else {
+ fConvexity = SkPath::kConcave_Convexity;
+ }
+ }
+ }
+
+ SkPoint fCurrPt;
+ SkVector fVec0, fVec1, fFirstVec;
+ int fPtCount; // non-degenerate points
+ int fSign;
+ SkPath::Convexity fConvexity;
+};
+
+SkPath::Convexity SkPath::ComputeConvexity(const SkPath& path) {
+ SkPoint pts[4];
+ SkPath::Verb verb;
+ SkPath::Iter iter(path, true);
+
+ int contourCount = 0;
+ int count;
+ Convexicator state;
+
+ while ((verb = iter.next(pts)) != SkPath::kDone_Verb) {
+ switch (verb) {
+ case kMove_Verb:
+ if (++contourCount > 1) {
+ return kConcave_Convexity;
+ }
+ pts[1] = pts[0];
+ count = 1;
+ break;
+ case kLine_Verb: count = 1; break;
+ case kQuad_Verb: count = 2; break;
+ case kCubic_Verb: count = 3; break;
+ case kClose_Verb:
+ state.close();
+ count = 0;
+ break;
+ default:
+ SkASSERT(!"bad verb");
+ return kConcave_Convexity;
+ }
+
+ for (int i = 1; i <= count; i++) {
+ state.addPt(pts[i]);
+ }
+ // early exit
+ if (kConcave_Convexity == state.getConvexity()) {
+ return kConcave_Convexity;
+ }
+ }
+ return state.getConvexity();
+}
+