/* * Simple IDCT * * Copyright (c) 2001 Michael Niedermayer * Copyright (c) 2007 Mans Rullgard * * This file is part of FFmpeg. * * FFmpeg is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * FFmpeg is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with FFmpeg; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include "libavutil/arm/asm.S" #define W1 22725 /* cos(i*M_PI/16)*sqrt(2)*(1<<14) + 0.5 */ #define W2 21407 /* cos(i*M_PI/16)*sqrt(2)*(1<<14) + 0.5 */ #define W3 19266 /* cos(i*M_PI/16)*sqrt(2)*(1<<14) + 0.5 */ #define W4 16383 /* cos(i*M_PI/16)*sqrt(2)*(1<<14) + 0.5 */ #define W5 12873 /* cos(i*M_PI/16)*sqrt(2)*(1<<14) + 0.5 */ #define W6 8867 /* cos(i*M_PI/16)*sqrt(2)*(1<<14) + 0.5 */ #define W7 4520 /* cos(i*M_PI/16)*sqrt(2)*(1<<14) + 0.5 */ #define ROW_SHIFT 11 #define COL_SHIFT 20 #define W13 (W1 | (W3 << 16)) #define W26 (W2 | (W6 << 16)) #define W42 (W4 | (W2 << 16)) #define W42n (-W4&0xffff | (-W2 << 16)) #define W46 (W4 | (W6 << 16)) #define W57 (W5 | (W7 << 16)) /* Compute partial IDCT of single row. shift = left-shift amount r0 = source address r2 = row[2,0] <= 2 cycles r3 = row[3,1] ip = w42 <= 2 cycles Output in registers r4--r11 */ .macro idct_row shift ldr lr, =W46 /* lr = W4 | (W6 << 16) */ mov r1, #(1<<(\shift-1)) smlad r4, r2, ip, r1 smlsd r7, r2, ip, r1 ldr ip, =W13 /* ip = W1 | (W3 << 16) */ ldr r10,=W57 /* r10 = W5 | (W7 << 16) */ smlad r5, r2, lr, r1 smlsd r6, r2, lr, r1 smuad r8, r3, ip /* r8 = B0 = W1*row[1] + W3*row[3] */ smusdx r11,r3, r10 /* r11 = B3 = W7*row[1] - W5*row[3] */ ldr lr, [r0, #12] /* lr = row[7,5] */ pkhtb r2, ip, r10,asr #16 /* r3 = W7 | (W3 << 16) */ pkhbt r1, ip, r10,lsl #16 /* r1 = W1 | (W5 << 16) */ smusdx r9, r2, r3 /* r9 = -B1 = W7*row[3] - W3*row[1] */ smlad r8, lr, r10,r8 /* B0 += W5*row[5] + W7*row[7] */ smusdx r10,r3, r1 /* r10 = B2 = W5*row[1] - W1*row[3] */ ldr r3, =W42n /* r3 = -W4 | (-W2 << 16) */ smlad r10,lr, r2, r10 /* B2 += W7*row[5] + W3*row[7] */ ldr r2, [r0, #4] /* r2 = row[6,4] */ smlsdx r11,lr, ip, r11 /* B3 += W3*row[5] - W1*row[7] */ ldr ip, =W46 /* ip = W4 | (W6 << 16) */ smlad r9, lr, r1, r9 /* B1 -= W1*row[5] + W5*row[7] */ smlad r5, r2, r3, r5 /* A1 += -W4*row[4] - W2*row[6] */ smlsd r6, r2, r3, r6 /* A2 += -W4*row[4] + W2*row[6] */ smlad r4, r2, ip, r4 /* A0 += W4*row[4] + W6*row[6] */ smlsd r7, r2, ip, r7 /* A3 += W4*row[4] - W6*row[6] */ .endm /* Compute partial IDCT of half row. shift = left-shift amount r2 = row[2,0] r3 = row[3,1] ip = w42 Output in registers r4--r11 */ .macro idct_row4 shift ldr lr, =W46 /* lr = W4 | (W6 << 16) */ ldr r10,=W57 /* r10 = W5 | (W7 << 16) */ mov r1, #(1<<(\shift-1)) smlad r4, r2, ip, r1 smlsd r7, r2, ip, r1 ldr ip, =W13 /* ip = W1 | (W3 << 16) */ smlad r5, r2, lr, r1 smlsd r6, r2, lr, r1 smusdx r11,r3, r10 /* r11 = B3 = W7*row[1] - W5*row[3] */ smuad r8, r3, ip /* r8 = B0 = W1*row[1] + W3*row[3] */ pkhtb r2, ip, r10,asr #16 /* r3 = W7 | (W3 << 16) */ pkhbt r1, ip, r10,lsl #16 /* r1 = W1 | (W5 << 16) */ smusdx r9, r2, r3 /* r9 = -B1 = W7*row[3] - W3*row[1] */ smusdx r10,r3, r1 /* r10 = B2 = W5*row[1] - W1*row[3] */ .endm /* Compute final part of IDCT single row without shift. Input in registers r4--r11 Output in registers ip, r4--r6, lr, r8--r10 */ .macro idct_finish add ip, r4, r8 /* r1 = A0 + B0 */ sub lr, r4, r8 /* r2 = A0 - B0 */ sub r4, r5, r9 /* r2 = A1 + B1 */ add r8, r5, r9 /* r2 = A1 - B1 */ add r5, r6, r10 /* r1 = A2 + B2 */ sub r9, r6, r10 /* r1 = A2 - B2 */ add r6, r7, r11 /* r2 = A3 + B3 */ sub r10,r7, r11 /* r2 = A3 - B3 */ .endm /* Compute final part of IDCT single row. shift = right-shift amount Input/output in registers r4--r11 */ .macro idct_finish_shift shift add r3, r4, r8 /* r3 = A0 + B0 */ sub r2, r4, r8 /* r2 = A0 - B0 */ mov r4, r3, asr #\shift mov r8, r2, asr #\shift sub r3, r5, r9 /* r3 = A1 + B1 */ add r2, r5, r9 /* r2 = A1 - B1 */ mov r5, r3, asr #\shift mov r9, r2, asr #\shift add r3, r6, r10 /* r3 = A2 + B2 */ sub r2, r6, r10 /* r2 = A2 - B2 */ mov r6, r3, asr #\shift mov r10,r2, asr #\shift add r3, r7, r11 /* r3 = A3 + B3 */ sub r2, r7, r11 /* r2 = A3 - B3 */ mov r7, r3, asr #\shift mov r11,r2, asr #\shift .endm /* Compute final part of IDCT single row, saturating results at 8 bits. shift = right-shift amount Input/output in registers r4--r11 */ .macro idct_finish_shift_sat shift add r3, r4, r8 /* r3 = A0 + B0 */ sub ip, r4, r8 /* ip = A0 - B0 */ usat r4, #8, r3, asr #\shift usat r8, #8, ip, asr #\shift sub r3, r5, r9 /* r3 = A1 + B1 */ add ip, r5, r9 /* ip = A1 - B1 */ usat r5, #8, r3, asr #\shift usat r9, #8, ip, asr #\shift add r3, r6, r10 /* r3 = A2 + B2 */ sub ip, r6, r10 /* ip = A2 - B2 */ usat r6, #8, r3, asr #\shift usat r10,#8, ip, asr #\shift add r3, r7, r11 /* r3 = A3 + B3 */ sub ip, r7, r11 /* ip = A3 - B3 */ usat r7, #8, r3, asr #\shift usat r11,#8, ip, asr #\shift .endm /* Compute IDCT of single row, storing as column. r0 = source r1 = dest */ function idct_row_armv6 push {lr} ldr lr, [r0, #12] /* lr = row[7,5] */ ldr ip, [r0, #4] /* ip = row[6,4] */ ldr r3, [r0, #8] /* r3 = row[3,1] */ ldr r2, [r0] /* r2 = row[2,0] */ orrs lr, lr, ip itt eq cmpeq lr, r3 cmpeq lr, r2, lsr #16 beq 1f push {r1} ldr ip, =W42 /* ip = W4 | (W2 << 16) */ cmp lr, #0 beq 2f idct_row ROW_SHIFT b 3f 2: idct_row4 ROW_SHIFT 3: pop {r1} idct_finish_shift ROW_SHIFT strh r4, [r1] strh r5, [r1, #(16*2)] strh r6, [r1, #(16*4)] strh r7, [r1, #(16*6)] strh r11,[r1, #(16*1)] strh r10,[r1, #(16*3)] strh r9, [r1, #(16*5)] strh r8, [r1, #(16*7)] pop {pc} 1: mov r2, r2, lsl #3 strh r2, [r1] strh r2, [r1, #(16*2)] strh r2, [r1, #(16*4)] strh r2, [r1, #(16*6)] strh r2, [r1, #(16*1)] strh r2, [r1, #(16*3)] strh r2, [r1, #(16*5)] strh r2, [r1, #(16*7)] pop {pc} endfunc /* Compute IDCT of single column, read as row. r0 = source r1 = dest */ function idct_col_armv6 push {r1, lr} ldr r2, [r0] /* r2 = row[2,0] */ ldr ip, =W42 /* ip = W4 | (W2 << 16) */ ldr r3, [r0, #8] /* r3 = row[3,1] */ idct_row COL_SHIFT pop {r1} idct_finish_shift COL_SHIFT strh r4, [r1] strh r5, [r1, #(16*1)] strh r6, [r1, #(16*2)] strh r7, [r1, #(16*3)] strh r11,[r1, #(16*4)] strh r10,[r1, #(16*5)] strh r9, [r1, #(16*6)] strh r8, [r1, #(16*7)] pop {pc} endfunc /* Compute IDCT of single column, read as row, store saturated 8-bit. r0 = source r1 = dest r2 = line size */ function idct_col_put_armv6 push {r1, r2, lr} ldr r2, [r0] /* r2 = row[2,0] */ ldr ip, =W42 /* ip = W4 | (W2 << 16) */ ldr r3, [r0, #8] /* r3 = row[3,1] */ idct_row COL_SHIFT pop {r1, r2} idct_finish_shift_sat COL_SHIFT strb_post r4, r1, r2 strb_post r5, r1, r2 strb_post r6, r1, r2 strb_post r7, r1, r2 strb_post r11,r1, r2 strb_post r10,r1, r2 strb_post r9, r1, r2 strb_post r8, r1, r2 sub r1, r1, r2, lsl #3 pop {pc} endfunc /* Compute IDCT of single column, read as row, add/store saturated 8-bit. r0 = source r1 = dest r2 = line size */ function idct_col_add_armv6 push {r1, r2, lr} ldr r2, [r0] /* r2 = row[2,0] */ ldr ip, =W42 /* ip = W4 | (W2 << 16) */ ldr r3, [r0, #8] /* r3 = row[3,1] */ idct_row COL_SHIFT pop {r1, r2} idct_finish ldrb r3, [r1] ldrb r7, [r1, r2] ldrb r11,[r1, r2, lsl #2] add ip, r3, ip, asr #COL_SHIFT usat ip, #8, ip add r4, r7, r4, asr #COL_SHIFT strb_post ip, r1, r2 ldrb ip, [r1, r2] usat r4, #8, r4 ldrb r11,[r1, r2, lsl #2] add r5, ip, r5, asr #COL_SHIFT usat r5, #8, r5 strb_post r4, r1, r2 ldrb r3, [r1, r2] ldrb ip, [r1, r2, lsl #2] strb_post r5, r1, r2 ldrb r7, [r1, r2] ldrb r4, [r1, r2, lsl #2] add r6, r3, r6, asr #COL_SHIFT usat r6, #8, r6 add r10,r7, r10,asr #COL_SHIFT usat r10,#8, r10 add r9, r11,r9, asr #COL_SHIFT usat r9, #8, r9 add r8, ip, r8, asr #COL_SHIFT usat r8, #8, r8 add lr, r4, lr, asr #COL_SHIFT usat lr, #8, lr strb_post r6, r1, r2 strb_post r10,r1, r2 strb_post r9, r1, r2 strb_post r8, r1, r2 strb_post lr, r1, r2 sub r1, r1, r2, lsl #3 pop {pc} endfunc /* Compute 8 IDCT row transforms. func = IDCT row->col function width = width of columns in bytes */ .macro idct_rows func width bl \func add r0, r0, #(16*2) add r1, r1, #\width bl \func add r0, r0, #(16*2) add r1, r1, #\width bl \func add r0, r0, #(16*2) add r1, r1, #\width bl \func sub r0, r0, #(16*5) add r1, r1, #\width bl \func add r0, r0, #(16*2) add r1, r1, #\width bl \func add r0, r0, #(16*2) add r1, r1, #\width bl \func add r0, r0, #(16*2) add r1, r1, #\width bl \func sub r0, r0, #(16*7) .endm /* void ff_simple_idct_armv6(int16_t *data); */ function ff_simple_idct_armv6, export=1 push {r4-r11, lr} sub sp, sp, #128 mov r1, sp idct_rows idct_row_armv6, 2 mov r1, r0 mov r0, sp idct_rows idct_col_armv6, 2 add sp, sp, #128 pop {r4-r11, pc} endfunc /* ff_simple_idct_add_armv6(uint8_t *dest, int line_size, int16_t *data); */ function ff_simple_idct_add_armv6, export=1 push {r0, r1, r4-r11, lr} sub sp, sp, #128 mov r0, r2 mov r1, sp idct_rows idct_row_armv6, 2 mov r0, sp ldr r1, [sp, #128] ldr r2, [sp, #(128+4)] idct_rows idct_col_add_armv6, 1 add sp, sp, #(128+8) pop {r4-r11, pc} endfunc /* ff_simple_idct_put_armv6(uint8_t *dest, int line_size, int16_t *data); */ function ff_simple_idct_put_armv6, export=1 push {r0, r1, r4-r11, lr} sub sp, sp, #128 mov r0, r2 mov r1, sp idct_rows idct_row_armv6, 2 mov r0, sp ldr r1, [sp, #128] ldr r2, [sp, #(128+4)] idct_rows idct_col_put_armv6, 1 add sp, sp, #(128+8) pop {r4-r11, pc} endfunc