1 | //////////////////////////////////////////////////////////////////////////////////////// |
---|
2 | // File : idct.c |
---|
3 | // Date : octobre 2015 |
---|
4 | // author : Alain Greiner |
---|
5 | //////////////////////////////////////////////////////////////////////////////////////// |
---|
6 | // This file define the code of the IDCT (Inverse Discrete Cosinus Transform) thread |
---|
7 | // for the MJPEG application. |
---|
8 | // It read blocks of 8*8 pixels (one int32_t per pixel) from the <in> MWMR channel. |
---|
9 | // It write blocks of 8*8 pixels (one uint8_t per pixel) to the <out> MWMR channel. |
---|
10 | //////////////////////////////////////////////////////////////////////////////////////// |
---|
11 | |
---|
12 | #include <mwmr_channel.h> |
---|
13 | #include <stdio.h> |
---|
14 | #include <stdint.h> |
---|
15 | #include "mjpeg.h" |
---|
16 | |
---|
17 | #define INT_MAX ((int32_t)0x7fffffff) |
---|
18 | #define INT_MIN ((int32_t)0x80000000) |
---|
19 | |
---|
20 | // macro to use a shared TTY |
---|
21 | #define PRINTF(...) lock_acquire( &tty_lock ); \ |
---|
22 | giet_tty_printf(__VA_ARGS__); \ |
---|
23 | lock_release( &tty_lock ); |
---|
24 | |
---|
25 | // Useful constants |
---|
26 | |
---|
27 | /* ck = cos(k*pi/16) = s8-k = sin((8-k)*pi/16) times 1 << C_BITS and rounded */ |
---|
28 | #define c0_1 16384 |
---|
29 | #define c0_s2 23170 |
---|
30 | #define c1_1 16069 |
---|
31 | #define c1_s2 22725 |
---|
32 | #define c2_1 15137 |
---|
33 | #define c2_s2 21407 |
---|
34 | #define c3_1 13623 |
---|
35 | #define c3_s2 19266 |
---|
36 | #define c4_1 11585 |
---|
37 | #define c4_s2 16384 |
---|
38 | #define c5_1 9102 |
---|
39 | #define c5_s2 12873 |
---|
40 | #define c6_1 6270 |
---|
41 | #define c6_s2 8867 |
---|
42 | #define c7_1 3196 |
---|
43 | #define c7_s2 4520 |
---|
44 | #define c8_1 0 |
---|
45 | #define c8_s2 0 |
---|
46 | #define sqrt2 c0_s2 |
---|
47 | |
---|
48 | // The number of bits of accuracy in all (signed) integer operations |
---|
49 | |
---|
50 | #define ARITH_BITS 16 |
---|
51 | |
---|
52 | // The minimum signed integer value that fits in ARITH_BITS |
---|
53 | #define ARITH_MIN (-1 << (ARITH_BITS-1)) |
---|
54 | #define ARITH_MAX (~ARITH_MIN) |
---|
55 | |
---|
56 | // The number of bits coefficients are scaled up before 2-D idct |
---|
57 | #define S_BITS 3 |
---|
58 | |
---|
59 | // The number of bits in the fractional part of a fixed point constant |
---|
60 | #define C_BITS 14 |
---|
61 | |
---|
62 | // This version is vital in passing overall mean error test. |
---|
63 | #define descale(x, n) (((x) + (1 << ((n) - 1)) - ((x) < 0)) >> (n)) |
---|
64 | |
---|
65 | static const int32_t COS[2][8] = |
---|
66 | { |
---|
67 | {c0_1 , c1_1 , c2_1 , c3_1 , c4_1 , c5_1 , c6_1 , c7_1 }, |
---|
68 | {c0_s2, c1_s2, c2_s2, c3_s2, c4_s2, c5_s2, c6_s2, c7_s2} |
---|
69 | }; |
---|
70 | |
---|
71 | //////////////////////////////////// |
---|
72 | static inline void rot( int32_t f, |
---|
73 | int32_t k, |
---|
74 | int32_t x, |
---|
75 | int32_t y, |
---|
76 | int32_t* rx, |
---|
77 | int32_t* ry ) |
---|
78 | { |
---|
79 | #define Cos(k) COS[f][k] |
---|
80 | #define Sin(k) Cos(8-k) |
---|
81 | *rx = (Cos(k) * x - Sin(k) * y) >> C_BITS; |
---|
82 | // r = (r + (1 << (C_BITS - 1))) >> C_BITS; |
---|
83 | *ry = (Sin(k) * x + Cos(k) * y) >> C_BITS; |
---|
84 | // r = (r + (1 << (C_BITS - 1))) >> C_BITS; |
---|
85 | #undef Cos |
---|
86 | #undef Sin |
---|
87 | } |
---|
88 | |
---|
89 | /* Butterfly: but(a,b,x,y) = rot(sqrt(2),4,a,b,x,y) */ |
---|
90 | #define but(a,b,x,y) do { x = a - b; y = a + b; } while(0) |
---|
91 | |
---|
92 | // Inverse 1-D Discrete Cosine Transform. |
---|
93 | // Result Y is scaled up by factor sqrt(8). |
---|
94 | // Original Loeffler algorithm. |
---|
95 | static inline void idct_1d( int32_t* Y ) |
---|
96 | { |
---|
97 | int32_t z1[8], z2[8], z3[8]; |
---|
98 | |
---|
99 | /* Stage 1: */ |
---|
100 | but(Y[0], Y[4], z1[1], z1[0]); |
---|
101 | rot(1, 6, Y[2], Y[6], &z1[2], &z1[3]); |
---|
102 | but(Y[1], Y[7], z1[4], z1[7]); |
---|
103 | z1[5] = (sqrt2 * Y[3]) >> C_BITS; |
---|
104 | // r = (r + (1 << (C_BITS - 1))) >> C_BITS; |
---|
105 | z1[6] = (sqrt2 * Y[5]) >> C_BITS; |
---|
106 | // r = (r + (1 << (C_BITS - 1))) >> C_BITS; |
---|
107 | |
---|
108 | /* Stage 2: */ |
---|
109 | but(z1[0], z1[3], z2[3], z2[0]); |
---|
110 | but(z1[1], z1[2], z2[2], z2[1]); |
---|
111 | but(z1[4], z1[6], z2[6], z2[4]); |
---|
112 | but(z1[7], z1[5], z2[5], z2[7]); |
---|
113 | |
---|
114 | /* Stage 3: */ |
---|
115 | z3[0] = z2[0]; |
---|
116 | z3[1] = z2[1]; |
---|
117 | z3[2] = z2[2]; |
---|
118 | z3[3] = z2[3]; |
---|
119 | rot(0, 3, z2[4], z2[7], &z3[4], &z3[7]); |
---|
120 | rot(0, 1, z2[5], z2[6], &z3[5], &z3[6]); |
---|
121 | |
---|
122 | /* Final stage 4: */ |
---|
123 | but(z3[0], z3[7], Y[7], Y[0]); |
---|
124 | but(z3[1], z3[6], Y[6], Y[1]); |
---|
125 | but(z3[2], z3[5], Y[5], Y[2]); |
---|
126 | but(z3[3], z3[4], Y[4], Y[3]); |
---|
127 | } |
---|
128 | |
---|
129 | ////////////////////////////////////////////////////////////// |
---|
130 | __attribute__ ((constructor)) void idct( unsigned int index ) |
---|
131 | ////////////////////////////////////////////////////////////// |
---|
132 | { |
---|
133 | mwmr_channel_t* input = iqzz_2_idct[index]; |
---|
134 | mwmr_channel_t* output = idct_2_libu[index]; |
---|
135 | |
---|
136 | int32_t row; |
---|
137 | int32_t column; |
---|
138 | int32_t block; |
---|
139 | |
---|
140 | int32_t bin[64]; |
---|
141 | uint8_t bout[64]; |
---|
142 | int32_t Y[64]; |
---|
143 | |
---|
144 | // get platform parameters |
---|
145 | uint32_t x_size; |
---|
146 | uint32_t y_size; |
---|
147 | uint32_t nprocs; |
---|
148 | giet_procs_number( &x_size , &y_size , &nprocs ); |
---|
149 | |
---|
150 | // get processor coordinates |
---|
151 | unsigned int x , y , p; |
---|
152 | giet_proc_xyp( &x ,&y , &p ); |
---|
153 | |
---|
154 | // private TTY allocation |
---|
155 | // giet_tty_alloc( 0 ); |
---|
156 | |
---|
157 | PRINTF("\n[MJPEG] thread IDCT[%d] starts on P[%d,%d,%d]\n", index , x , y , p ) |
---|
158 | |
---|
159 | uint32_t image = index; |
---|
160 | uint32_t nblocks = nblocks_h * nblocks_w; |
---|
161 | |
---|
162 | while( image < MAX_IMAGES ) // one image per iteration |
---|
163 | { |
---|
164 | for ( block = 0 ; block < nblocks ; block++ ) |
---|
165 | { |
---|
166 | uint32_t begin; |
---|
167 | |
---|
168 | // read obe block of coefficients (4 bytes per pixel) |
---|
169 | mwmr_read( input, (uint32_t*)bin , 64 ); |
---|
170 | |
---|
171 | for ( row = 0; row < 8 ; row++ ) |
---|
172 | { |
---|
173 | for ( column = 0 ; column < 8 ; column++ ) |
---|
174 | { |
---|
175 | Y[row * 8 + column] = bin[row * 8 + column] << S_BITS; |
---|
176 | } |
---|
177 | |
---|
178 | idct_1d( &Y[8*row] ); |
---|
179 | |
---|
180 | // Result Y is scaled up by factor sqrt(8)*2^S_BITS. |
---|
181 | } |
---|
182 | |
---|
183 | for ( column = 0 ; column < 8 ; column++ ) |
---|
184 | { |
---|
185 | int32_t Yc[8]; |
---|
186 | |
---|
187 | for ( row = 0 ; row < 8 ; row++ ) |
---|
188 | { |
---|
189 | Yc[row] = Y[8 * row + column]; |
---|
190 | } |
---|
191 | |
---|
192 | idct_1d( Yc ); |
---|
193 | |
---|
194 | for ( row = 0 ; row < 8 ; row++ ) |
---|
195 | { |
---|
196 | // Result is once more scaled up by a factor sqrt(8). |
---|
197 | int32_t r = 128 + descale(Yc[row], 2 * S_BITS); |
---|
198 | |
---|
199 | // Clip to 8 bits unsigned |
---|
200 | r = r > 0 ? (r < 255 ? r : 255) : 0; |
---|
201 | |
---|
202 | bout[8*row+column] = r; |
---|
203 | |
---|
204 | giet_pthread_assert( ((r & 0xFF) == r ) , |
---|
205 | "ERROR in idct() : pixel overflow" ); |
---|
206 | } |
---|
207 | } |
---|
208 | |
---|
209 | // write one block to output MWMR channel (one byte per pixel) |
---|
210 | mwmr_write( output, (uint32_t*)bout , 16 ); |
---|
211 | |
---|
212 | #if (DEBUG_IDCT > 1) |
---|
213 | PRINTF("\nIDCT[%d] completes block %d/%d in image %d\n", |
---|
214 | index , block , nblocks , image ) |
---|
215 | PRINTF(" %x %x %x %x %x %x %x %x\n" |
---|
216 | " %x %x %x %x %x %x %x %x\n" |
---|
217 | " %x %x %x %x %x %x %x %x\n" |
---|
218 | " %x %x %x %x %x %x %x %x\n" |
---|
219 | " %x %x %x %x %x %x %x %x\n" |
---|
220 | " %x %x %x %x %x %x %x %x\n" |
---|
221 | " %x %x %x %x %x %x %x %x\n" |
---|
222 | " %x %x %x %x %x %x %x %x\n", |
---|
223 | bout[0] , bout[1] , bout[2] , bout[3] , bout[4] , bout[5] , bout[6] , bout[7] , |
---|
224 | bout[8] , bout[9] , bout[10], bout[11], bout[12], bout[13], bout[14], bout[15], |
---|
225 | bout[16], bout[17], bout[18], bout[19], bout[20], bout[21], bout[22], bout[23], |
---|
226 | bout[24], bout[25], bout[26], bout[27], bout[28], bout[29], bout[30], bout[31], |
---|
227 | bout[32], bout[33], bout[34], bout[35], bout[36], bout[37], bout[38], bout[39], |
---|
228 | bout[40], bout[41], bout[42], bout[43], bout[44], bout[45], bout[46], bout[47], |
---|
229 | bout[48], bout[49], bout[50], bout[51], bout[52], bout[53], bout[54], bout[55], |
---|
230 | bout[56], bout[57], bout[58], bout[59], bout[60], bout[61], bout[62], bout[63]) |
---|
231 | } |
---|
232 | #endif |
---|
233 | } // end for blocks |
---|
234 | |
---|
235 | #if DEBUG_IDCT |
---|
236 | PRINTF("IDCT[%d] completes image %d at cycle %d\n", index , image , giet_proctime() ) |
---|
237 | #endif |
---|
238 | |
---|
239 | image = image + x_size*y_size; |
---|
240 | |
---|
241 | } // end while (1) on images |
---|
242 | |
---|
243 | giet_pthread_exit( "idct completed" ); |
---|
244 | |
---|
245 | } // end idct() |
---|
246 | |
---|