1; 2; Copyright (c) 2011 The WebM project authors. All Rights Reserved. 3; 4; Use of this source code is governed by a BSD-style license 5; that can be found in the LICENSE file in the root of the source 6; tree. An additional intellectual property rights grant can be found 7; in the file PATENTS. All contributing project authors may 8; be found in the AUTHORS file in the root of the source tree. 9; 10 11 12 EXPORT |vp8_fast_quantize_b_armv6| 13 14 INCLUDE vp8_asm_enc_offsets.asm 15 16 ARM 17 REQUIRE8 18 PRESERVE8 19 20 AREA ||.text||, CODE, READONLY, ALIGN=2 21 22; r0 BLOCK *b 23; r1 BLOCKD *d 24|vp8_fast_quantize_b_armv6| PROC 25 stmfd sp!, {r1, r4-r11, lr} 26 27 ldr r3, [r0, #vp8_block_coeff] ; coeff 28 ldr r4, [r0, #vp8_block_quant_fast] ; quant_fast 29 ldr r5, [r0, #vp8_block_round] ; round 30 ldr r6, [r1, #vp8_blockd_qcoeff] ; qcoeff 31 ldr r7, [r1, #vp8_blockd_dqcoeff] ; dqcoeff 32 ldr r8, [r1, #vp8_blockd_dequant] ; dequant 33 34 ldr r2, loop_count ; loop_count=0x1000000. 'lsls' instruction 35 ; is used to update the counter so that 36 ; it can be used to mark nonzero 37 ; quantized coefficient pairs. 38 39 mov r1, #0 ; flags for quantized coeffs 40 41 ; PART 1: quantization and dequantization loop 42loop 43 ldr r9, [r3], #4 ; [z1 | z0] 44 ldr r10, [r5], #4 ; [r1 | r0] 45 ldr r11, [r4], #4 ; [q1 | q0] 46 47 ssat16 lr, #1, r9 ; [sz1 | sz0] 48 eor r9, r9, lr ; [z1 ^ sz1 | z0 ^ sz0] 49 ssub16 r9, r9, lr ; x = (z ^ sz) - sz 50 sadd16 r9, r9, r10 ; [x1+r1 | x0+r0] 51 52 ldr r12, [r3], #4 ; [z3 | z2] 53 54 smulbb r0, r9, r11 ; [(x0+r0)*q0] 55 smultt r9, r9, r11 ; [(x1+r1)*q1] 56 57 ldr r10, [r5], #4 ; [r3 | r2] 58 59 ssat16 r11, #1, r12 ; [sz3 | sz2] 60 eor r12, r12, r11 ; [z3 ^ sz3 | z2 ^ sz2] 61 pkhtb r0, r9, r0, asr #16 ; [y1 | y0] 62 ldr r9, [r4], #4 ; [q3 | q2] 63 ssub16 r12, r12, r11 ; x = (z ^ sz) - sz 64 65 sadd16 r12, r12, r10 ; [x3+r3 | x2+r2] 66 67 eor r0, r0, lr ; [(y1 ^ sz1) | (y0 ^ sz0)] 68 69 smulbb r10, r12, r9 ; [(x2+r2)*q2] 70 smultt r12, r12, r9 ; [(x3+r3)*q3] 71 72 ssub16 r0, r0, lr ; x = (y ^ sz) - sz 73 74 cmp r0, #0 ; check if zero 75 orrne r1, r1, r2, lsr #24 ; add flag for nonzero coeffs 76 77 str r0, [r6], #4 ; *qcoeff++ = x 78 ldr r9, [r8], #4 ; [dq1 | dq0] 79 80 pkhtb r10, r12, r10, asr #16 ; [y3 | y2] 81 eor r10, r10, r11 ; [(y3 ^ sz3) | (y2 ^ sz2)] 82 ssub16 r10, r10, r11 ; x = (y ^ sz) - sz 83 84 cmp r10, #0 ; check if zero 85 orrne r1, r1, r2, lsr #23 ; add flag for nonzero coeffs 86 87 str r10, [r6], #4 ; *qcoeff++ = x 88 ldr r11, [r8], #4 ; [dq3 | dq2] 89 90 smulbb r12, r0, r9 ; [x0*dq0] 91 smultt r0, r0, r9 ; [x1*dq1] 92 93 smulbb r9, r10, r11 ; [x2*dq2] 94 smultt r10, r10, r11 ; [x3*dq3] 95 96 lsls r2, r2, #2 ; update loop counter 97 strh r12, [r7, #0] ; dqcoeff[0] = [x0*dq0] 98 strh r0, [r7, #2] ; dqcoeff[1] = [x1*dq1] 99 strh r9, [r7, #4] ; dqcoeff[2] = [x2*dq2] 100 strh r10, [r7, #6] ; dqcoeff[3] = [x3*dq3] 101 add r7, r7, #8 ; dqcoeff += 8 102 bne loop 103 104 ; PART 2: check position for eob... 105 ldr r11, [sp, #0] ; restore BLOCKD pointer 106 mov lr, #0 ; init eob 107 cmp r1, #0 ; coeffs after quantization? 108 ldr r12, [r11, #vp8_blockd_eob] 109 beq end ; skip eob calculations if all zero 110 111 ldr r0, [r11, #vp8_blockd_qcoeff] 112 113 ; check shortcut for nonzero qcoeffs 114 tst r1, #0x80 115 bne quant_coeff_15_14 116 tst r1, #0x20 117 bne quant_coeff_13_11 118 tst r1, #0x8 119 bne quant_coeff_12_7 120 tst r1, #0x40 121 bne quant_coeff_10_9 122 tst r1, #0x10 123 bne quant_coeff_8_3 124 tst r1, #0x2 125 bne quant_coeff_6_5 126 tst r1, #0x4 127 bne quant_coeff_4_2 128 b quant_coeff_1_0 129 130quant_coeff_15_14 131 ldrh r2, [r0, #30] ; rc=15, i=15 132 mov lr, #16 133 cmp r2, #0 134 bne end 135 136 ldrh r3, [r0, #28] ; rc=14, i=14 137 mov lr, #15 138 cmp r3, #0 139 bne end 140 141quant_coeff_13_11 142 ldrh r2, [r0, #22] ; rc=11, i=13 143 mov lr, #14 144 cmp r2, #0 145 bne end 146 147quant_coeff_12_7 148 ldrh r3, [r0, #14] ; rc=7, i=12 149 mov lr, #13 150 cmp r3, #0 151 bne end 152 153 ldrh r2, [r0, #20] ; rc=10, i=11 154 mov lr, #12 155 cmp r2, #0 156 bne end 157 158quant_coeff_10_9 159 ldrh r3, [r0, #26] ; rc=13, i=10 160 mov lr, #11 161 cmp r3, #0 162 bne end 163 164 ldrh r2, [r0, #24] ; rc=12, i=9 165 mov lr, #10 166 cmp r2, #0 167 bne end 168 169quant_coeff_8_3 170 ldrh r3, [r0, #18] ; rc=9, i=8 171 mov lr, #9 172 cmp r3, #0 173 bne end 174 175 ldrh r2, [r0, #12] ; rc=6, i=7 176 mov lr, #8 177 cmp r2, #0 178 bne end 179 180quant_coeff_6_5 181 ldrh r3, [r0, #6] ; rc=3, i=6 182 mov lr, #7 183 cmp r3, #0 184 bne end 185 186 ldrh r2, [r0, #4] ; rc=2, i=5 187 mov lr, #6 188 cmp r2, #0 189 bne end 190 191quant_coeff_4_2 192 ldrh r3, [r0, #10] ; rc=5, i=4 193 mov lr, #5 194 cmp r3, #0 195 bne end 196 197 ldrh r2, [r0, #16] ; rc=8, i=3 198 mov lr, #4 199 cmp r2, #0 200 bne end 201 202 ldrh r3, [r0, #8] ; rc=4, i=2 203 mov lr, #3 204 cmp r3, #0 205 bne end 206 207quant_coeff_1_0 208 ldrh r2, [r0, #2] ; rc=1, i=1 209 mov lr, #2 210 cmp r2, #0 211 bne end 212 213 mov lr, #1 ; rc=0, i=0 214 215end 216 strb lr, [r12] 217 ldmfd sp!, {r1, r4-r11, pc} 218 219 ENDP 220 221loop_count 222 DCD 0x1000000 223 224 END 225 226