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24 
25 /**
26  @file
27 
28  Dequantizer for SBC decoder; reconstructs quantized representation of subband
29  samples.
30 
31  @ingroup codec_internal
32  */
33 
34 /**
35 @addtogroup codec_internal
36 @{
37 */
38 
39 /**
40  This function is a fixed-point approximation of a modification of the following
41  dequantization operation defined in the spec, as inferred from section 12.6.4:
42 
43  @code
44  dequant = 2^(scale_factor+1) * ((raw * 2.0 + 1.0) / ((2^bits) - 1) - 1)
45 
46  2 <= bits <= 16
47  0 <= raw < (2^bits)-1   (the -1 is because quantized values with all 1's are
48  forbidden)
49 
50  -65535 < dequant < 65535
51  @endcode
52 
53  The code below computes the dequantized value divided by a scaling constant
54  equal to about 1.38. This constant is chosen to ensure that the entry in the
55  dequant_long_scaled table for 16 bits is as accurate as possible, since it has
56  the least relative precision available to it due to its small magnitude.
57 
58  This routine outputs in Q16.15 format.
59 
60  The helper array dequant_long is defined as follows:
61 
62  @code
63  dequant_long_long[bits] = round(2^31 * 1/((2^bits - 1) / 1.38...)  for 2 <=
64  bits <= 16
65  @endcode
66 
67 
68  Additionally, the table entries have the following property:
69 
70  @code
71  dequant_long_scaled[bits] <= 2^31 / ((2^bits - 1))  for 2 <= bits <= 16
72  @endcode
73 
74  Therefore
75 
76  @code
77  d = 2 * raw + 1              1 <= d <= 2^bits - 2
78 
79  d' = d * dequant_long[bits]
80 
81                   d * dequant_long_scaled[bits] <= (2^bits - 2) * (2^31 /
82  (2^bits - 1))
83                   d * dequant_long_scaled[bits] <= 2^31 * (2^bits - 2)/(2^bits -
84  1) < 2^31
85  @endcode
86 
87  Therefore, d' doesn't overflow a signed 32-bit value.
88 
89  @code
90 
91  d' =~ 2^31 * (raw * 2.0 + 1.0) / (2^bits - 1) / 1.38...
92 
93  result = d' - 2^31/1.38... =~ 2^31 * ((raw * 2.0 + 1.0) / (2^bits - 1) - 1) /
94  1.38...
95 
96  result is therefore a scaled approximation to dequant. It remains only to
97  turn 2^31 into 2^(scale_factor+1). Since we're aiming for Q16.15 format,
98  this is achieved by shifting right by (15-scale_factor):
99 
100   (2^31 * x) >> (15-scale_factor) =~ 2^(31-15+scale_factor) * x = 2^15 *
101  2^(1+scale_factor) * x
102  @endcode
103 
104  */
105 
106 #include <oi_codec_sbc_private.h>
107 
108 #ifndef SBC_DEQUANT_LONG_SCALED_OFFSET
109 #define SBC_DEQUANT_LONG_SCALED_OFFSET 1555931970
110 #endif
111 
112 #ifndef SBC_DEQUANT_LONG_UNSCALED_OFFSET
113 #define SBC_DEQUANT_LONG_UNSCALED_OFFSET 2147483648
114 #endif
115 
116 #ifndef SBC_DEQUANT_SCALING_FACTOR
117 #define SBC_DEQUANT_SCALING_FACTOR 1.38019122262781f
118 #endif
119 
120 const uint32_t dequant_long_scaled[17];
121 const uint32_t dequant_long_unscaled[17];
122 
123 /** Scales x by y bits to the right, adding a rounding factor.
124  */
125 #ifndef SCALE
126 #define SCALE(x, y) (((x) + (1 << ((y)-1))) >> (y))
127 #endif
128 
129 #ifdef DEBUG_DEQUANTIZATION
130 
131 #include <math.h>
132 
dequant_float(uint32_t raw,OI_UINT scale_factor,OI_UINT bits)133 INLINE float dequant_float(uint32_t raw, OI_UINT scale_factor, OI_UINT bits) {
134   float result = (1 << (scale_factor + 1)) *
135                  ((raw * 2.0f + 1.0f) / ((1 << bits) - 1.0f) - 1.0f);
136 
137   result /= SBC_DEQUANT_SCALING_FACTOR;
138 
139   /* Unless the encoder screwed up, all correct dequantized values should
140    * satisfy this inequality. Non-compliant encoders which generate quantized
141    * values with all 1-bits set can, theoretically, trigger this assert. This
142    * is unlikely, however, and only an issue in debug mode.
143    */
144   OI_ASSERT(fabs(result) < 32768 * 1.6);
145 
146   return result;
147 }
148 
149 #endif
150 
OI_SBC_Dequant(uint32_t raw,OI_UINT scale_factor,OI_UINT bits)151 INLINE int32_t OI_SBC_Dequant(uint32_t raw, OI_UINT scale_factor,
152                               OI_UINT bits) {
153   uint32_t d;
154   int32_t result;
155 
156   OI_ASSERT(scale_factor <= 15);
157   OI_ASSERT(bits <= 16);
158 
159   if (bits <= 1) {
160     return 0;
161   }
162 
163   d = (raw * 2) + 1;
164   d *= dequant_long_scaled[bits];
165   result = d - SBC_DEQUANT_LONG_SCALED_OFFSET;
166 
167 #ifdef DEBUG_DEQUANTIZATION
168   {
169     int32_t integerized_float_result;
170     float float_result;
171 
172     float_result = dequant_float(raw, scale_factor, bits);
173     integerized_float_result = (int32_t)floor(0.5f + float_result * (1 << 15));
174 
175     /* This detects overflow */
176     OI_ASSERT(((result >= 0) && (integerized_float_result >= 0)) ||
177               ((result <= 0) && (integerized_float_result <= 0)));
178   }
179 #endif
180   return result >> (15 - scale_factor);
181 }
182 
183 /* This version of Dequant does not incorporate the scaling factor of 1.38. It
184  * is intended for use with implementations of the filterbank which are
185  * hard-coded into a DSP. Output is Q16.4 format, so that after joint stereo
186  * processing (which leaves the most significant bit equal to the sign bit if
187  * the encoder is conformant) the result will fit a 24 bit fixed point signed
188  * value.*/
189 
OI_SBC_Dequant_Unscaled(uint32_t raw,OI_UINT scale_factor,OI_UINT bits)190 INLINE int32_t OI_SBC_Dequant_Unscaled(uint32_t raw, OI_UINT scale_factor,
191                                        OI_UINT bits) {
192   uint32_t d;
193   int32_t result;
194 
195   OI_ASSERT(scale_factor <= 15);
196   OI_ASSERT(bits <= 16);
197 
198   if (bits <= 1) {
199     return 0;
200   }
201   if (bits == 16) {
202     result = (raw << 16) + raw - 0x7fff7fff;
203     return SCALE(result, 24 - scale_factor);
204   }
205 
206   d = (raw * 2) + 1;
207   d *= dequant_long_unscaled[bits];
208   result = d - 0x80000000;
209 
210   return SCALE(result, 24 - scale_factor);
211 }
212 
213 /**
214 @}
215 */
216