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1 /*
2  * Copyright 2006 The Android Open Source Project
3  *
4  * Use of this source code is governed by a BSD-style license that can be
5  * found in the LICENSE file.
6  */
7 
8 #include "SkRect.h"
9 
10 #include "SkMalloc.h"
11 
join(int32_t left,int32_t top,int32_t right,int32_t bottom)12 void SkIRect::join(int32_t left, int32_t top, int32_t right, int32_t bottom) {
13     // do nothing if the params are empty
14     if (left >= right || top >= bottom) {
15         return;
16     }
17 
18     // if we are empty, just assign
19     if (fLeft >= fRight || fTop >= fBottom) {
20         this->set(left, top, right, bottom);
21     } else {
22         if (left < fLeft) fLeft = left;
23         if (top < fTop) fTop = top;
24         if (right > fRight) fRight = right;
25         if (bottom > fBottom) fBottom = bottom;
26     }
27 }
28 
29 /////////////////////////////////////////////////////////////////////////////
30 
toQuad(SkPoint quad[4]) const31 void SkRect::toQuad(SkPoint quad[4]) const {
32     SkASSERT(quad);
33 
34     quad[0].set(fLeft, fTop);
35     quad[1].set(fRight, fTop);
36     quad[2].set(fRight, fBottom);
37     quad[3].set(fLeft, fBottom);
38 }
39 
40 #include "SkNx.h"
41 
setBoundsCheck(const SkPoint pts[],int count)42 bool SkRect::setBoundsCheck(const SkPoint pts[], int count) {
43     SkASSERT((pts && count > 0) || count == 0);
44 
45     if (count <= 0) {
46         this->setEmpty();
47         return true;
48     }
49 
50     Sk4s min, max;
51     if (count & 1) {
52         min = max = Sk4s(pts->fX, pts->fY,
53                          pts->fX, pts->fY);
54         pts   += 1;
55         count -= 1;
56     } else {
57         min = max = Sk4s::Load(pts);
58         pts   += 2;
59         count -= 2;
60     }
61 
62     Sk4s accum = min * 0;
63     while (count) {
64         Sk4s xy = Sk4s::Load(pts);
65         accum = accum * xy;
66         min = Sk4s::Min(min, xy);
67         max = Sk4s::Max(max, xy);
68         pts   += 2;
69         count -= 2;
70     }
71 
72     bool all_finite = (accum * 0 == 0).allTrue();
73     if (all_finite) {
74         this->set(SkTMin(min[0], min[2]), SkTMin(min[1], min[3]),
75                   SkTMax(max[0], max[2]), SkTMax(max[1], max[3]));
76     } else {
77         this->setEmpty();
78     }
79     return all_finite;
80 }
81 
setBoundsNoCheck(const SkPoint pts[],int count)82 void SkRect::setBoundsNoCheck(const SkPoint pts[], int count) {
83     if (!this->setBoundsCheck(pts, count)) {
84         this->set(SK_ScalarNaN, SK_ScalarNaN, SK_ScalarNaN, SK_ScalarNaN);
85     }
86 }
87 
88 #define CHECK_INTERSECT(al, at, ar, ab, bl, bt, br, bb) \
89     SkScalar L = SkMaxScalar(al, bl);                   \
90     SkScalar R = SkMinScalar(ar, br);                   \
91     SkScalar T = SkMaxScalar(at, bt);                   \
92     SkScalar B = SkMinScalar(ab, bb);                   \
93     do { if (!(L < R && T < B)) return false; } while (0)
94     // do the !(opposite) check so we return false if either arg is NaN
95 
intersect(SkScalar left,SkScalar top,SkScalar right,SkScalar bottom)96 bool SkRect::intersect(SkScalar left, SkScalar top, SkScalar right, SkScalar bottom) {
97     CHECK_INTERSECT(left, top, right, bottom, fLeft, fTop, fRight, fBottom);
98     this->setLTRB(L, T, R, B);
99     return true;
100 }
101 
intersect(const SkRect & r)102 bool SkRect::intersect(const SkRect& r) {
103     return this->intersect(r.fLeft, r.fTop, r.fRight, r.fBottom);
104 }
105 
intersect(const SkRect & a,const SkRect & b)106 bool SkRect::intersect(const SkRect& a, const SkRect& b) {
107     CHECK_INTERSECT(a.fLeft, a.fTop, a.fRight, a.fBottom, b.fLeft, b.fTop, b.fRight, b.fBottom);
108     this->setLTRB(L, T, R, B);
109     return true;
110 }
111 
join(SkScalar left,SkScalar top,SkScalar right,SkScalar bottom)112 void SkRect::join(SkScalar left, SkScalar top, SkScalar right, SkScalar bottom) {
113     // do nothing if the params are empty
114     if (left >= right || top >= bottom) {
115         return;
116     }
117 
118     // if we are empty, just assign
119     if (fLeft >= fRight || fTop >= fBottom) {
120         this->set(left, top, right, bottom);
121     } else {
122         fLeft   = SkMinScalar(fLeft, left);
123         fTop    = SkMinScalar(fTop, top);
124         fRight  = SkMaxScalar(fRight, right);
125         fBottom = SkMaxScalar(fBottom, bottom);
126     }
127 }
128 
129 ////////////////////////////////////////////////////////////////////////////////////////////////
130 
131 #include "SkString.h"
132 #include "SkStringUtils.h"
133 
set_scalar(SkString * storage,SkScalar value,SkScalarAsStringType asType)134 static const char* set_scalar(SkString* storage, SkScalar value, SkScalarAsStringType asType) {
135     storage->reset();
136     SkAppendScalar(storage, value, asType);
137     return storage->c_str();
138 }
139 
dump(bool asHex) const140 void SkRect::dump(bool asHex) const {
141     SkScalarAsStringType asType = asHex ? kHex_SkScalarAsStringType : kDec_SkScalarAsStringType;
142 
143     SkString line;
144     if (asHex) {
145         SkString tmp;
146         line.printf( "SkRect::MakeLTRB(%s, /* %f */\n", set_scalar(&tmp, fLeft, asType), fLeft);
147         line.appendf("                 %s, /* %f */\n", set_scalar(&tmp, fTop, asType), fTop);
148         line.appendf("                 %s, /* %f */\n", set_scalar(&tmp, fRight, asType), fRight);
149         line.appendf("                 %s  /* %f */);", set_scalar(&tmp, fBottom, asType), fBottom);
150     } else {
151         SkString strL, strT, strR, strB;
152         SkAppendScalarDec(&strL, fLeft);
153         SkAppendScalarDec(&strT, fTop);
154         SkAppendScalarDec(&strR, fRight);
155         SkAppendScalarDec(&strB, fBottom);
156         line.printf("SkRect::MakeLTRB(%s, %s, %s, %s);",
157                     strL.c_str(), strT.c_str(), strR.c_str(), strB.c_str());
158     }
159     SkDebugf("%s\n", line.c_str());
160 }
161