1 #include "SkFloatBits.h"
2 #include "SkMath.h"
3
4 /******************************************************************************
5 SkFloatBits_toInt[Floor, Round, Ceil] are identical except for what they
6 do right before they return ... >> exp;
7 Floor - adds nothing
8 Round - adds 1 << (exp - 1)
9 Ceil - adds (1 << exp) - 1
10
11 Floor and Cast are very similar, but Cast applies its sign after all other
12 computations on value. Also, Cast does not need to check for negative zero,
13 as that value (0x80000000) "does the right thing" for Ceil. Note that it
14 doesn't for Floor/Round/Ceil, hence the explicit check.
15 ******************************************************************************/
16
17 #define EXP_BIAS (127+23)
18 #define MATISSA_MAGIC_BIG (1 << 23)
19
unpack_exp(uint32_t packed)20 static inline int unpack_exp(uint32_t packed) {
21 return (packed << 1 >> 24);
22 }
23
24 #if 0
25 // the ARM compiler generates an extra BIC, so I use the dirty version instead
26 static inline int unpack_matissa(uint32_t packed) {
27 // we could mask with 0x7FFFFF, but that is harder for ARM to encode
28 return (packed & ~0xFF000000) | MATISSA_MAGIC_BIG;
29 }
30 #endif
31
32 // returns the low 24-bits, so we need to OR in the magic_bit afterwards
unpack_matissa_dirty(uint32_t packed)33 static inline int unpack_matissa_dirty(uint32_t packed) {
34 return packed & ~0xFF000000;
35 }
36
37 // same as (int)float
SkFloatBits_toIntCast(int32_t packed)38 int32_t SkFloatBits_toIntCast(int32_t packed) {
39 int exp = unpack_exp(packed) - EXP_BIAS;
40 int value = unpack_matissa_dirty(packed) | MATISSA_MAGIC_BIG;
41
42 if (exp >= 0) {
43 if (exp > 7) { // overflow
44 value = SK_MaxS32;
45 } else {
46 value <<= exp;
47 }
48 } else {
49 exp = -exp;
50 if (exp > 25) { // underflow
51 exp = 25;
52 }
53 value >>= exp;
54 }
55 return SkApplySign(value, SkExtractSign(packed));
56 }
57
58 // same as (int)floor(float)
SkFloatBits_toIntFloor(int32_t packed)59 int32_t SkFloatBits_toIntFloor(int32_t packed) {
60 // curse you negative 0
61 if ((packed << 1) == 0) {
62 return 0;
63 }
64
65 int exp = unpack_exp(packed) - EXP_BIAS;
66 int value = unpack_matissa_dirty(packed) | MATISSA_MAGIC_BIG;
67
68 if (exp >= 0) {
69 if (exp > 7) { // overflow
70 value = SK_MaxS32;
71 } else {
72 value <<= exp;
73 }
74 // apply the sign after we check for overflow
75 return SkApplySign(value, SkExtractSign(packed));
76 } else {
77 // apply the sign before we right-shift
78 value = SkApplySign(value, SkExtractSign(packed));
79 exp = -exp;
80 if (exp > 25) { // underflow
81 exp = 25;
82 }
83 // int add = 0;
84 return value >> exp;
85 }
86 }
87
88 // same as (int)floor(float + 0.5)
SkFloatBits_toIntRound(int32_t packed)89 int32_t SkFloatBits_toIntRound(int32_t packed) {
90 // curse you negative 0
91 if ((packed << 1) == 0) {
92 return 0;
93 }
94
95 int exp = unpack_exp(packed) - EXP_BIAS;
96 int value = unpack_matissa_dirty(packed) | MATISSA_MAGIC_BIG;
97
98 if (exp >= 0) {
99 if (exp > 7) { // overflow
100 value = SK_MaxS32;
101 } else {
102 value <<= exp;
103 }
104 // apply the sign after we check for overflow
105 return SkApplySign(value, SkExtractSign(packed));
106 } else {
107 // apply the sign before we right-shift
108 value = SkApplySign(value, SkExtractSign(packed));
109 exp = -exp;
110 if (exp > 25) { // underflow
111 exp = 25;
112 }
113 int add = 1 << (exp - 1);
114 return (value + add) >> exp;
115 }
116 }
117
118 // same as (int)ceil(float)
SkFloatBits_toIntCeil(int32_t packed)119 int32_t SkFloatBits_toIntCeil(int32_t packed) {
120 // curse you negative 0
121 if ((packed << 1) == 0) {
122 return 0;
123 }
124
125 int exp = unpack_exp(packed) - EXP_BIAS;
126 int value = unpack_matissa_dirty(packed) | MATISSA_MAGIC_BIG;
127
128 if (exp >= 0) {
129 if (exp > 7) { // overflow
130 value = SK_MaxS32;
131 } else {
132 value <<= exp;
133 }
134 // apply the sign after we check for overflow
135 return SkApplySign(value, SkExtractSign(packed));
136 } else {
137 // apply the sign before we right-shift
138 value = SkApplySign(value, SkExtractSign(packed));
139 exp = -exp;
140 if (exp > 25) { // underflow
141 exp = 25;
142 }
143 int add = (1 << exp) - 1;
144 return (value + add) >> exp;
145 }
146 }
147
148 #ifdef SK_CAN_USE_FLOAT
149
SkIntToFloatCast(int32_t value)150 float SkIntToFloatCast(int32_t value) {
151 if (0 == value) {
152 return 0;
153 }
154
155 int shift = EXP_BIAS;
156
157 // record the sign and make value positive
158 int sign = SkExtractSign(value);
159 value = SkApplySign(value, sign);
160
161 if (value >> 24) { // value is too big (has more than 24 bits set)
162 int bias = 8 - SkCLZ(value);
163 SkDebugf("value = %d, bias = %d\n", value, bias);
164 SkASSERT(bias > 0 && bias < 8);
165 value >>= bias; // need to round?
166 shift += bias;
167 } else {
168 int zeros = SkCLZ(value << 8);
169 SkASSERT(zeros >= 0 && zeros <= 23);
170 value <<= zeros;
171 shift -= zeros;
172 }
173
174 // now value is left-aligned to 24 bits
175 SkASSERT((value >> 23) == 1);
176 SkASSERT(shift >= 0 && shift <= 255);
177
178 SkFloatIntUnion data;
179 data.fSignBitInt = (sign << 31) | (shift << 23) | (value & ~MATISSA_MAGIC_BIG);
180 return data.fFloat;
181 }
182
SkIntToFloatCast_NoOverflowCheck(int32_t value)183 float SkIntToFloatCast_NoOverflowCheck(int32_t value) {
184 if (0 == value) {
185 return 0;
186 }
187
188 int shift = EXP_BIAS;
189
190 // record the sign and make value positive
191 int sign = SkExtractSign(value);
192 value = SkApplySign(value, sign);
193
194 int zeros = SkCLZ(value << 8);
195 value <<= zeros;
196 shift -= zeros;
197
198 SkFloatIntUnion data;
199 data.fSignBitInt = (sign << 31) | (shift << 23) | (value & ~MATISSA_MAGIC_BIG);
200 return data.fFloat;
201 }
202
203 #endif
204