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1 /*
2  * Copyright (C) 2006 The Android Open Source Project
3  *
4  * Licensed under the Apache License, Version 2.0 (the "License");
5  * you may not use this file except in compliance with the License.
6  * You may obtain a copy of the License at
7  *
8  *      http://www.apache.org/licenses/LICENSE-2.0
9  *
10  * Unless required by applicable law or agreed to in writing, software
11  * distributed under the License is distributed on an "AS IS" BASIS,
12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13  * See the License for the specific language governing permissions and
14  * limitations under the License.
15  */
16 
17 #ifndef SkMath_DEFINED
18 #define SkMath_DEFINED
19 
20 #include "SkTypes.h"
21 
22 //! Returns the number of leading zero bits (0...32)
23 int SkCLZ_portable(uint32_t);
24 
25 /** Computes the 64bit product of a * b, and then shifts the answer down by
26     shift bits, returning the low 32bits. shift must be [0..63]
27     e.g. to perform a fixedmul, call SkMulShift(a, b, 16)
28 */
29 int32_t SkMulShift(int32_t a, int32_t b, unsigned shift);
30 
31 /** Computes numer1 * numer2 / denom in full 64 intermediate precision.
32     It is an error for denom to be 0. There is no special handling if
33     the result overflows 32bits.
34 */
35 int32_t SkMulDiv(int32_t numer1, int32_t numer2, int32_t denom);
36 
37 /** Computes (numer1 << shift) / denom in full 64 intermediate precision.
38     It is an error for denom to be 0. There is no special handling if
39     the result overflows 32bits.
40 */
41 int32_t SkDivBits(int32_t numer, int32_t denom, int shift);
42 
43 /** Return the integer square root of value, with a bias of bitBias
44 */
45 int32_t SkSqrtBits(int32_t value, int bitBias);
46 
47 /** Return the integer square root of n, treated as a SkFixed (16.16)
48 */
49 #define SkSqrt32(n)         SkSqrtBits(n, 15)
50 
51 /** Return the integer cube root of value, with a bias of bitBias
52  */
53 int32_t SkCubeRootBits(int32_t value, int bitBias);
54 
55 /** Returns -1 if n < 0, else returns 0
56 */
57 #define SkExtractSign(n)    ((int32_t)(n) >> 31)
58 
59 /** If sign == -1, returns -n, else sign must be 0, and returns n.
60     Typically used in conjunction with SkExtractSign().
61 */
SkApplySign(int32_t n,int32_t sign)62 static inline int32_t SkApplySign(int32_t n, int32_t sign) {
63     SkASSERT(sign == 0 || sign == -1);
64     return (n ^ sign) - sign;
65 }
66 
67 /** Return x with the sign of y */
SkCopySign32(int32_t x,int32_t y)68 static inline int32_t SkCopySign32(int32_t x, int32_t y) {
69     return SkApplySign(x, SkExtractSign(x ^ y));
70 }
71 
72 /** Returns (value < 0 ? 0 : value) efficiently (i.e. no compares or branches)
73 */
SkClampPos(int value)74 static inline int SkClampPos(int value) {
75     return value & ~(value >> 31);
76 }
77 
78 /** Given an integer and a positive (max) integer, return the value
79     pinned against 0 and max, inclusive.
80     Note: only works as long as max - value doesn't wrap around
81     @param value    The value we want returned pinned between [0...max]
82     @param max      The positive max value
83     @return 0 if value < 0, max if value > max, else value
84 */
SkClampMax(int value,int max)85 static inline int SkClampMax(int value, int max) {
86     // ensure that max is positive
87     SkASSERT(max >= 0);
88     // ensure that if value is negative, max - value doesn't wrap around
89     SkASSERT(value >= 0 || max - value > 0);
90 
91 #ifdef SK_CPU_HAS_CONDITIONAL_INSTR
92     if (value < 0) {
93         value = 0;
94     }
95     if (value > max) {
96         value = max;
97     }
98     return value;
99 #else
100 
101     int diff = max - value;
102     // clear diff if diff is positive
103     diff &= diff >> 31;
104 
105     // clear the result if value < 0
106     return (value + diff) & ~(value >> 31);
107 #endif
108 }
109 
110 /** Given a positive value and a positive max, return the value
111     pinned against max.
112     Note: only works as long as max - value doesn't wrap around
113     @return max if value >= max, else value
114 */
SkClampUMax(unsigned value,unsigned max)115 static inline unsigned SkClampUMax(unsigned value, unsigned max) {
116 #ifdef SK_CPU_HAS_CONDITIONAL_INSTR
117     if (value > max) {
118         value = max;
119     }
120     return value;
121 #else
122     int diff = max - value;
123     // clear diff if diff is positive
124     diff &= diff >> 31;
125 
126     return value + diff;
127 #endif
128 }
129 
130 ///////////////////////////////////////////////////////////////////////////////
131 
132 #if defined(__arm__) && !defined(__thumb__)
133     #define SkCLZ(x)    __builtin_clz(x)
134 #endif
135 
136 #ifndef SkCLZ
137     #define SkCLZ(x)    SkCLZ_portable(x)
138 #endif
139 
140 ///////////////////////////////////////////////////////////////////////////////
141 
142 /** Returns the smallest power-of-2 that is >= the specified value. If value
143     is already a power of 2, then it is returned unchanged. It is undefined
144     if value is <= 0.
145 */
SkNextPow2(int value)146 static inline int SkNextPow2(int value) {
147     SkASSERT(value > 0);
148     return 1 << (32 - SkCLZ(value - 1));
149 }
150 
151 /** Returns the log2 of the specified value, were that value to be rounded up
152     to the next power of 2. It is undefined to pass 0. Examples:
153          SkNextLog2(1) -> 0
154          SkNextLog2(2) -> 1
155          SkNextLog2(3) -> 2
156          SkNextLog2(4) -> 2
157          SkNextLog2(5) -> 3
158 */
SkNextLog2(uint32_t value)159 static inline int SkNextLog2(uint32_t value) {
160     SkASSERT(value != 0);
161     return 32 - SkCLZ(value - 1);
162 }
163 
164 ///////////////////////////////////////////////////////////////////////////////
165 
166 /** SkMulS16(a, b) multiplies a * b, but requires that a and b are both int16_t.
167     With this requirement, we can generate faster instructions on some
168     architectures.
169 */
170 #if defined(__arm__) \
171   && !defined(__thumb__) \
172   && !defined(__ARM_ARCH_4T__) \
173   && !defined(__ARM_ARCH_5T__)
SkMulS16(S16CPU x,S16CPU y)174     static inline int32_t SkMulS16(S16CPU x, S16CPU y) {
175         SkASSERT((int16_t)x == x);
176         SkASSERT((int16_t)y == y);
177         int32_t product;
178         asm("smulbb %0, %1, %2 \n"
179             : "=r"(product)
180             : "r"(x), "r"(y)
181             );
182         return product;
183     }
184 #else
185     #ifdef SK_DEBUG
SkMulS16(S16CPU x,S16CPU y)186         static inline int32_t SkMulS16(S16CPU x, S16CPU y) {
187             SkASSERT((int16_t)x == x);
188             SkASSERT((int16_t)y == y);
189             return x * y;
190         }
191     #else
192         #define SkMulS16(x, y)  ((x) * (y))
193     #endif
194 #endif
195 
196 /** Return a*b/255, truncating away any fractional bits. Only valid if both
197     a and b are 0..255
198 */
SkMulDiv255Trunc(U8CPU a,U8CPU b)199 static inline U8CPU SkMulDiv255Trunc(U8CPU a, U8CPU b) {
200     SkASSERT((uint8_t)a == a);
201     SkASSERT((uint8_t)b == b);
202     unsigned prod = SkMulS16(a, b) + 1;
203     return (prod + (prod >> 8)) >> 8;
204 }
205 
206 /** Return a*b/255, rounding any fractional bits. Only valid if both
207     a and b are 0..255
208  */
SkMulDiv255Round(U8CPU a,U8CPU b)209 static inline U8CPU SkMulDiv255Round(U8CPU a, U8CPU b) {
210     SkASSERT((uint8_t)a == a);
211     SkASSERT((uint8_t)b == b);
212     unsigned prod = SkMulS16(a, b) + 128;
213     return (prod + (prod >> 8)) >> 8;
214 }
215 
216 /** Return a*b/((1 << shift) - 1), rounding any fractional bits.
217     Only valid if a and b are unsigned and <= 32767 and shift is > 0 and <= 8
218 */
SkMul16ShiftRound(unsigned a,unsigned b,int shift)219 static inline unsigned SkMul16ShiftRound(unsigned a, unsigned b, int shift) {
220     SkASSERT(a <= 32767);
221     SkASSERT(b <= 32767);
222     SkASSERT(shift > 0 && shift <= 8);
223     unsigned prod = SkMulS16(a, b) + (1 << (shift - 1));
224     return (prod + (prod >> shift)) >> shift;
225 }
226 
227 /** Just the rounding step in SkDiv255Round: round(value / 255)
228  */
SkDiv255Round(unsigned prod)229 static inline unsigned SkDiv255Round(unsigned prod) {
230     prod += 128;
231     return (prod + (prod >> 8)) >> 8;
232 }
233 
234 #endif
235 
236