// Copyright (c) 2013 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include #include "skia/ext/convolver.h" #include "skia/ext/convolver_mips_dspr2.h" #include "third_party/skia/include/core/SkTypes.h" namespace skia { // Convolves horizontally along a single row. The row data is given in // |src_data| and continues for the num_values() of the filter. void ConvolveHorizontally_mips_dspr2(const unsigned char* src_data, const ConvolutionFilter1D& filter, unsigned char* out_row, bool has_alpha) { #if SIMD_MIPS_DSPR2 int row_to_filter = 0; int num_values = filter.num_values(); if (has_alpha) { for (int out_x = 0; out_x < num_values; out_x++) { // Get the filter that determines the current output pixel. int filter_offset, filter_length; const ConvolutionFilter1D::Fixed* filter_values = filter.FilterForValue(out_x, &filter_offset, &filter_length); int filter_x = 0; __asm__ __volatile__ ( ".set push \n" ".set noreorder \n" "beqz %[filter_len], 3f \n" " sll $t0, %[filter_offset], 2 \n" "addu %[rtf], %[src_data], $t0 \n" "mtlo $0, $ac0 \n" "mtlo $0, $ac1 \n" "mtlo $0, $ac2 \n" "mtlo $0, $ac3 \n" "srl $t7, %[filter_len], 2 \n" "beqz $t7, 2f \n" " li %[fx], 0 \n" "11: \n" "addu $t4, %[filter_val], %[fx] \n" "sll $t5, %[fx], 1 \n" "ulw $t6, 0($t4) \n" // t6 = |cur[1]|cur[0]| "ulw $t8, 4($t4) \n" // t8 = |cur[3]|cur[2]| "addu $t0, %[rtf], $t5 \n" "lw $t1, 0($t0) \n" // t1 = |a0|b0|g0|r0| "lw $t2, 4($t0) \n" // t2 = |a1|b1|g1|r1| "lw $t3, 8($t0) \n" // t3 = |a2|b2|g2|r2| "lw $t4, 12($t0) \n" // t4 = |a3|b3|g3|r3| "precrq.qb.ph $t0, $t2, $t1 \n" // t0 = |a1|g1|a0|g0| "precr.qb.ph $t5, $t2, $t1 \n" // t5 = |b1|r1|b0|r0| "preceu.ph.qbla $t1, $t0 \n" // t1 = |0|a1|0|a0| "preceu.ph.qbra $t2, $t0 \n" // t2 = |0|g1|0|g0| "preceu.ph.qbla $t0, $t5 \n" // t0 = |0|b1|0|b0| "preceu.ph.qbra $t5, $t5 \n" // t5 = |0|r1|0|r0| "dpa.w.ph $ac0, $t1, $t6 \n" // ac0+(cur*a1)+(cur*a0) "dpa.w.ph $ac1, $t0, $t6 \n" // ac1+(cur*b1)+(cur*b0) "dpa.w.ph $ac2, $t2, $t6 \n" // ac2+(cur*g1)+(cur*g0) "dpa.w.ph $ac3, $t5, $t6 \n" // ac3+(cur*r1)+(cur*r0) "precrq.qb.ph $t0, $t4, $t3 \n" // t0 = |a3|g3|a2|g2| "precr.qb.ph $t5, $t4, $t3 \n" // t5 = |b3|r3|b2|r2| "preceu.ph.qbla $t1, $t0 \n" // t1 = |0|a3|0|a2| "preceu.ph.qbra $t2, $t0 \n" // t2 = |0|g3|0|g2| "preceu.ph.qbla $t0, $t5 \n" // t0 = |0|b3|0|b2| "preceu.ph.qbra $t5, $t5 \n" // t5 = |0|r3|0|r2| "dpa.w.ph $ac0, $t1, $t8 \n" // ac0+(cur*a3)+(cur*a2) "dpa.w.ph $ac1, $t0, $t8 \n" // ac1+(cur*b3)+(cur*b2) "dpa.w.ph $ac2, $t2, $t8 \n" // ac2+(cur*g3)+(cur*g2) "dpa.w.ph $ac3, $t5, $t8 \n" // ac3+(cur*r3)+(cur*r2) "addiu $t7, $t7, -1 \n" "bgtz $t7, 11b \n" " addiu %[fx], %[fx], 8 \n" "2: \n" "andi $t7, %[filter_len], 0x3 \n" // residual "beqz $t7, 3f \n" " nop \n" "21: \n" "sll $t1, %[fx], 1 \n" "addu $t2, %[filter_val], %[fx] \n" "addu $t0, %[rtf], $t1 \n" "lh $t6, 0($t2) \n" // t6 = filter_val[fx] "lbu $t1, 0($t0) \n" // t1 = row[fx * 4 + 0] "lbu $t2, 1($t0) \n" // t2 = row[fx * 4 + 1] "lbu $t3, 2($t0) \n" // t3 = row[fx * 4 + 2] "lbu $t4, 3($t0) \n" // t4 = row[fx * 4 + 2] "maddu $ac3, $t6, $t1 \n" "maddu $ac2, $t6, $t2 \n" "maddu $ac1, $t6, $t3 \n" "maddu $ac0, $t6, $t4 \n" "addiu $t7, $t7, -1 \n" "bgtz $t7, 21b \n" " addiu %[fx], %[fx], 2 \n" "3: \n" "extrv.w $t0, $ac0, %[kShiftBits] \n" // a >> kShiftBits "extrv.w $t1, $ac1, %[kShiftBits] \n" // b >> kShiftBits "extrv.w $t2, $ac2, %[kShiftBits] \n" // g >> kShiftBits "extrv.w $t3, $ac3, %[kShiftBits] \n" // r >> kShiftBits "sll $t5, %[out_x], 2 \n" "repl.ph $t6, 128 \n" // t6 = | 128 | 128 | "addu $t5, %[out_row], $t5 \n" "append $t2, $t3, 16 \n" "append $t0, $t1, 16 \n" "subu.ph $t1, $t0, $t6 \n" "shll_s.ph $t1, $t1, 8 \n" "shra.ph $t1, $t1, 8 \n" "addu.ph $t1, $t1, $t6 \n" "subu.ph $t3, $t2, $t6 \n" "shll_s.ph $t3, $t3, 8 \n" "shra.ph $t3, $t3, 8 \n" "addu.ph $t3, $t3, $t6 \n" "precr.qb.ph $t0, $t1, $t3 \n" "usw $t0, 0($t5) \n" ".set pop \n" : [fx] "+r" (filter_x), [out_x] "+r" (out_x), [out_row] "+r" (out_row), [rtf] "+r" (row_to_filter) : [filter_val] "r" (filter_values), [filter_len] "r" (filter_length), [kShiftBits] "r" (ConvolutionFilter1D::kShiftBits), [filter_offset] "r" (filter_offset), [src_data] "r" (src_data) : "lo", "hi", "$ac1lo", "$ac1hi", "$ac2lo", "$ac2hi", "$ac3lo", "$ac3hi", "t0", "t1", "t2", "t3", "t4", "t5", "t6", "t7", "t8" ); } } else { for (int out_x = 0; out_x < num_values; out_x++) { // Get the filter that determines the current output pixel. int filter_offset, filter_length; const ConvolutionFilter1D::Fixed* filter_values = filter.FilterForValue(out_x, &filter_offset, &filter_length); int filter_x = 0; __asm__ __volatile__ ( ".set push \n" ".set noreorder \n" "beqz %[filter_len], 3f \n" " sll $t0, %[filter_offset], 2 \n" "addu %[rtf], %[src_data], $t0 \n" "mtlo $0, $ac1 \n" "mtlo $0, $ac2 \n" "mtlo $0, $ac3 \n" "srl $t7, %[filter_len], 2 \n" "beqz $t7, 2f \n" " li %[fx], 0 \n" "11: \n" "addu $t4, %[filter_val], %[fx] \n" "sll $t5, %[fx], 1 \n" "ulw $t6, 0($t4) \n" // t6 = |cur[1]|cur[0]| "ulw $t8, 4($t4) \n" // t8 = |cur[3]|cur[2]| "addu $t0, %[rtf], $t5 \n" "lw $t1, 0($t0) \n" // t1 = |a0|b0|g0|r0| "lw $t2, 4($t0) \n" // t2 = |a1|b1|g1|r1| "lw $t3, 8($t0) \n" // t3 = |a2|b2|g2|r2| "lw $t4, 12($t0) \n" // t4 = |a3|b3|g3|r3| "precrq.qb.ph $t0, $t2, $t1 \n" // t0 = |a1|g1|a0|g0| "precr.qb.ph $t5, $t2, $t1 \n" // t5 = |b1|r1|b0|r0| "preceu.ph.qbra $t2, $t0 \n" // t2 = |0|g1|0|g0| "preceu.ph.qbla $t0, $t5 \n" // t0 = |0|b1|0|b0| "preceu.ph.qbra $t5, $t5 \n" // t5 = |0|r1|0|r0| "dpa.w.ph $ac1, $t0, $t6 \n" // ac1+(cur*b1)+(cur*b0) "dpa.w.ph $ac2, $t2, $t6 \n" // ac2+(cur*g1)+(cur*g0) "dpa.w.ph $ac3, $t5, $t6 \n" // ac3+(cur*r1)+(cur*r0) "precrq.qb.ph $t0, $t4, $t3 \n" // t0 = |a3|g3|a2|g2| "precr.qb.ph $t5, $t4, $t3 \n" // t5 = |b3|r3|b2|r2| "preceu.ph.qbra $t2, $t0 \n" // t2 = |0|g3|0|g2| "preceu.ph.qbla $t0, $t5 \n" // t0 = |0|b3|0|b2| "preceu.ph.qbra $t5, $t5 \n" // t5 = |0|r3|0|r2| "dpa.w.ph $ac1, $t0, $t8 \n" // ac1+(cur*b3)+(cur*b2) "dpa.w.ph $ac2, $t2, $t8 \n" // ac2+(cur*g3)+(cur*g2) "dpa.w.ph $ac3, $t5, $t8 \n" // ac3+(cur*r3)+(cur*r2) "addiu $t7, $t7, -1 \n" "bgtz $t7, 11b \n" " addiu %[fx], %[fx], 8 \n" "2: \n" "andi $t7, %[filter_len], 0x3 \n" // residual "beqz $t7, 3f \n" " nop \n" "21: \n" "sll $t1, %[fx], 1 \n" "addu $t2, %[filter_val], %[fx] \n" "addu $t0, %[rtf], $t1 \n" "lh $t6, 0($t2) \n" // t6 = filter_val[fx] "lbu $t1, 0($t0) \n" // t1 = row[fx * 4 + 0] "lbu $t2, 1($t0) \n" // t2 = row[fx * 4 + 1] "lbu $t3, 2($t0) \n" // t3 = row[fx * 4 + 2] "maddu $ac3, $t6, $t1 \n" "maddu $ac2, $t6, $t2 \n" "maddu $ac1, $t6, $t3 \n" "addiu $t7, $t7, -1 \n" "bgtz $t7, 21b \n" " addiu %[fx], %[fx], 2 \n" "3: \n" "extrv.w $t1, $ac1, %[kShiftBits] \n" // b >> kShiftBits "extrv.w $t2, $ac2, %[kShiftBits] \n" // g >> kShiftBits "extrv.w $t3, $ac3, %[kShiftBits] \n" // r >> kShiftBits "repl.ph $t6, 128 \n" // t6 = | 128 | 128 | "sll $t8, %[out_x], 2 \n" "addu $t8, %[out_row], $t8 \n" "append $t2, $t3, 16 \n" "andi $t1, 0xFFFF \n" "subu.ph $t5, $t1, $t6 \n" "shll_s.ph $t5, $t5, 8 \n" "shra.ph $t5, $t5, 8 \n" "addu.ph $t5, $t5, $t6 \n" "subu.ph $t4, $t2, $t6 \n" "shll_s.ph $t4, $t4, 8 \n" "shra.ph $t4, $t4, 8 \n" "addu.ph $t4, $t4, $t6 \n" "precr.qb.ph $t0, $t5, $t4 \n" "usw $t0, 0($t8) \n" ".set pop \n" : [fx] "+r" (filter_x), [out_x] "+r" (out_x), [out_row] "+r" (out_row), [rtf] "+r" (row_to_filter) : [filter_val] "r" (filter_values), [filter_len] "r" (filter_length), [kShiftBits] "r" (ConvolutionFilter1D::kShiftBits), [filter_offset] "r" (filter_offset), [src_data] "r" (src_data) : "lo", "hi", "$ac1lo", "$ac1hi", "$ac2lo", "$ac2hi", "$ac3lo", "$ac3hi", "t0", "t1", "t2", "t3", "t4", "t5", "t6", "t7", "t8" ); } } #endif } void ConvolveVertically_mips_dspr2(const ConvolutionFilter1D::Fixed* filter_val, int filter_length, unsigned char* const* source_data_rows, int pixel_width, unsigned char* out_row, bool has_alpha) { #if SIMD_MIPS_DSPR2 // We go through each column in the output and do a vertical convolution, // generating one output pixel each time. int byte_offset; int cnt; int filter_y; if (has_alpha) { for (int out_x = 0; out_x < pixel_width; out_x++) { __asm__ __volatile__ ( ".set push \n" ".set noreorder \n" "beqz %[filter_len], 3f \n" " sll %[offset], %[out_x], 2 \n" "mtlo $0, $ac0 \n" "mtlo $0, $ac1 \n" "mtlo $0, $ac2 \n" "mtlo $0, $ac3 \n" "srl %[cnt], %[filter_len], 2 \n" "beqz %[cnt], 2f \n" " li %[fy], 0 \n" "11: \n" "sll $t1, %[fy], 1 \n" "addu $t0, %[src_data_rows], $t1 \n" "lw $t1, 0($t0) \n" "lw $t2, 4($t0) \n" "lw $t3, 8($t0) \n" "lw $t4, 12($t0) \n" "addu $t1, $t1, %[offset] \n" "addu $t2, $t2, %[offset] \n" "addu $t3, $t3, %[offset] \n" "addu $t4, $t4, %[offset] \n" "lw $t1, 0($t1) \n" // t1 = |a0|b0|g0|r0| "lw $t2, 0($t2) \n" // t2 = |a1|b1|g1|r1| "lw $t3, 0($t3) \n" // t3 = |a0|b0|g0|r0| "lw $t4, 0($t4) \n" // t4 = |a1|b1|g1|r1| "precrq.qb.ph $t5, $t2, $t1 \n" // t5 = |a1|g1|a0|g0| "precr.qb.ph $t6, $t2, $t1 \n" // t6 = |b1|r1|b0|r0| "preceu.ph.qbla $t0, $t5 \n" // t0 = |0|a1|0|a0| "preceu.ph.qbra $t1, $t5 \n" // t1 = |0|g1|0|g0| "preceu.ph.qbla $t2, $t6 \n" // t2 = |0|b1|0|b0| "preceu.ph.qbra $t5, $t6 \n" // t5 = |0|r1|0|r0| "addu $t6, %[filter_val], %[fy] \n" "ulw $t7, 0($t6) \n" // t7 = |cur_1|cur_0| "ulw $t6, 4($t6) \n" // t6 = |cur_3|cur_2| "dpa.w.ph $ac0, $t5, $t7 \n" // (cur*r1)+(cur*r0) "dpa.w.ph $ac1, $t1, $t7 \n" // (cur*g1)+(cur*g0) "dpa.w.ph $ac2, $t2, $t7 \n" // (cur*b1)+(cur*b0) "dpa.w.ph $ac3, $t0, $t7 \n" // (cur*a1)+(cur*a0) "precrq.qb.ph $t5, $t4, $t3 \n" // t5 = |a3|g3|a2|g2| "precr.qb.ph $t7, $t4, $t3 \n" // t7 = |b3|r3|b2|r2| "preceu.ph.qbla $t0, $t5 \n" // t0 = |0|a3|0|a2| "preceu.ph.qbra $t1, $t5 \n" // t1 = |0|g3|0|g2| "preceu.ph.qbla $t2, $t7 \n" // t2 = |0|b3|0|b2| "preceu.ph.qbra $t5, $t7 \n" // t5 = |0|r3|0|r2| "dpa.w.ph $ac0, $t5, $t6 \n" // (cur*r3)+(cur*r2) "dpa.w.ph $ac1, $t1, $t6 \n" // (cur*g3)+(cur*g2) "dpa.w.ph $ac2, $t2, $t6 \n" // (cur*b3)+(cur*b2) "dpa.w.ph $ac3, $t0, $t6 \n" // (cur*a3)+(cur*a2) "addiu %[cnt], %[cnt], -1 \n" "bgtz %[cnt], 11b \n" " addiu %[fy], %[fy], 8 \n" "2: \n" "andi %[cnt], %[filter_len], 0x3 \n" // residual "beqz %[cnt], 3f \n" " nop \n" "21: \n" "addu $t0, %[filter_val], %[fy] \n" "lh $t4, 0($t0) \n" // t4=filter_val[fx] "sll $t1, %[fy], 1 \n" "addu $t0, %[src_data_rows], $t1 \n" "lw $t1, 0($t0) \n" "addu $t0, $t1, %[offset] \n" "lbu $t1, 0($t0) \n" // t1 = row[fx*4 + 0] "lbu $t2, 1($t0) \n" // t2 = row[fx*4 + 1] "lbu $t3, 2($t0) \n" // t3 = row[fx*4 + 2] "lbu $t0, 3($t0) \n" // t4 = row[fx*4 + 2] "maddu $ac0, $t4, $t1 \n" "maddu $ac1, $t4, $t2 \n" "maddu $ac2, $t4, $t3 \n" "maddu $ac3, $t4, $t0 \n" "addiu %[cnt], %[cnt], -1 \n" "bgtz %[cnt], 21b \n" " addiu %[fy], %[fy], 2 \n" "3: \n" "extrv.w $t3, $ac0, %[kShiftBits] \n" // a >> kShiftBits "extrv.w $t2, $ac1, %[kShiftBits] \n" // b >> kShiftBits "extrv.w $t1, $ac2, %[kShiftBits] \n" // g >> kShiftBits "extrv.w $t0, $ac3, %[kShiftBits] \n" // r >> kShiftBits "repl.ph $t4, 128 \n" // t4 = | 128 | 128 | "addu $t5, %[out_row], %[offset] \n" "append $t2, $t3, 16 \n" // t2 = |0|g|0|r| "append $t0, $t1, 16 \n" // t0 = |0|a|0|b| "subu.ph $t1, $t0, $t4 \n" "shll_s.ph $t1, $t1, 8 \n" "shra.ph $t1, $t1, 8 \n" "addu.ph $t1, $t1, $t4 \n" // Clamp(a)|Clamp(b) "subu.ph $t2, $t2, $t4 \n" "shll_s.ph $t2, $t2, 8 \n" "shra.ph $t2, $t2, 8 \n" "addu.ph $t2, $t2, $t4 \n" // Clamp(g)|Clamp(r) "andi $t3, $t1, 0xFF \n" // t3 = ClampTo8(b) "cmp.lt.ph $t3, $t2 \n" // cmp b, g, r "pick.ph $t0, $t2, $t3 \n" "andi $t3, $t0, 0xFF \n" "srl $t4, $t0, 16 \n" "cmp.lt.ph $t3, $t4 \n" "pick.ph $t0, $t4, $t3 \n" // t0 = max_color_ch "srl $t3, $t1, 16 \n" // t1 = ClampTo8(a) "cmp.lt.ph $t3, $t0 \n" "pick.ph $t0, $t0, $t3 \n" "ins $t1, $t0, 16, 8 \n" "precr.qb.ph $t0, $t1, $t2 \n" // t0 = |a|b|g|r| "usw $t0, 0($t5) \n" ".set pop \n" : [filter_val] "+r" (filter_val), [filter_len] "+r" (filter_length), [offset] "+r" (byte_offset), [fy] "+r" (filter_y), [cnt] "+r" (cnt), [out_x] "+r" (out_x), [pixel_width] "+r" (pixel_width) : [src_data_rows] "r" (source_data_rows), [out_row] "r" (out_row), [kShiftBits] "r" (ConvolutionFilter1D::kShiftBits) : "lo", "hi", "$ac1lo", "$ac1hi", "$ac2lo", "$ac2hi", "$ac3lo", "$ac3hi", "t0", "t1", "t2", "t3", "t4", "t5", "t6","t7", "memory" ); } } else { for (int out_x = 0; out_x < pixel_width; out_x++) { __asm__ __volatile__ ( ".set push \n" ".set noreorder \n" "beqz %[filter_len], 3f \n" " sll %[offset], %[out_x], 2 \n" "mtlo $0, $ac0 \n" "mtlo $0, $ac1 \n" "mtlo $0, $ac2 \n" "srl %[cnt], %[filter_len], 2 \n" "beqz %[cnt], 2f \n" " li %[fy], 0 \n" "11: \n" "sll $t1, %[fy], 1 \n" "addu $t0, %[src_data_rows], $t1 \n" "lw $t1, 0($t0) \n" "lw $t2, 4($t0) \n" "lw $t3, 8($t0) \n" "lw $t4, 12($t0) \n" "addu $t1, $t1, %[offset] \n" "addu $t2, $t2, %[offset] \n" "addu $t3, $t3, %[offset] \n" "addu $t4, $t4, %[offset] \n" "lw $t1, 0($t1) \n" // t1 = |a0|b0|g0|r0| "lw $t2, 0($t2) \n" // t2 = |a1|b1|g1|r1| "lw $t3, 0($t3) \n" // t3 = |a0|b0|g0|r0| "lw $t4, 0($t4) \n" // t4 = |a1|b1|g1|r1| "precrq.qb.ph $t5, $t2, $t1 \n" // t5 = |a1|g1|a0|g0| "precr.qb.ph $t6, $t2, $t1 \n" // t6 = |b1|r1|b0|r0| "preceu.ph.qbra $t1, $t5 \n" // t1 = |0|g1|0|g0| "preceu.ph.qbla $t2, $t6 \n" // t2 = |0|b1|0|b0| "preceu.ph.qbra $t5, $t6 \n" // t5 = |0|r1|0|r0| "addu $t6, %[filter_val], %[fy] \n" "ulw $t0, 0($t6) \n" // t0 = |cur_1|cur_0| "ulw $t6, 4($t6) \n" // t6 = |cur_1|cur_0| "dpa.w.ph $ac0, $t5, $t0 \n" // (cur*r1)+(cur*r0) "dpa.w.ph $ac1, $t1, $t0 \n" // (cur*g1)+(cur*g0) "dpa.w.ph $ac2, $t2, $t0 \n" // (cur*b1)+(cur*b0) "precrq.qb.ph $t5, $t4, $t3 \n" // t5 = |a3|g3|a2|g2| "precr.qb.ph $t0, $t4, $t3 \n" // t0 = |b3|r3|b2|r2| "preceu.ph.qbra $t1, $t5 \n" // t1 = |0|g3|0|g2| "preceu.ph.qbla $t2, $t0 \n" // t2 = |0|b3|0|b2| "preceu.ph.qbra $t5, $t0 \n" // t5 = |0|r3|0|r2| "dpa.w.ph $ac0, $t5, $t6 \n" // (cur*r1)+(cur*r0) "dpa.w.ph $ac1, $t1, $t6 \n" // (cur*g1)+(cur*g0) "dpa.w.ph $ac2, $t2, $t6 \n" // (cur*b1)+(cur*b0) "addiu %[cnt], %[cnt], -1 \n" "bgtz %[cnt], 11b \n" " addiu %[fy], %[fy], 8 \n" "2: \n" "andi %[cnt], %[filter_len], 0x3 \n" // residual "beqz %[cnt], 3f \n" " nop \n" "21: \n" "addu $t0, %[filter_val], %[fy] \n" "lh $t4, 0($t0) \n" // filter_val[fx] "sll $t1, %[fy], 1 \n" "addu $t0, %[src_data_rows], $t1 \n" "lw $t1, 0($t0) \n" "addu $t0, $t1, %[offset] \n" "lbu $t1, 0($t0) \n" // t1 = row[fx*4 + 0] "lbu $t2, 1($t0) \n" // t2 = row[fx*4 + 1] "lbu $t3, 2($t0) \n" // t3 = row[fx*4 + 2] "maddu $ac0, $t4, $t1 \n" "maddu $ac1, $t4, $t2 \n" "maddu $ac2, $t4, $t3 \n" "addiu %[cnt], %[cnt], -1 \n" "bgtz %[cnt], 21b \n" " addiu %[fy], %[fy], 2 \n" "3: \n" "extrv.w $t3, $ac0, %[kShiftBits] \n" // r >> kShiftBits "extrv.w $t2, $ac1, %[kShiftBits] \n" // g >> kShiftBits "extrv.w $t1, $ac2, %[kShiftBits] \n" // b >> kShiftBits "repl.ph $t6, 128 \n" // t6 = | 128 | 128 | "addu $t5, %[out_row], %[offset] \n" "append $t2, $t3, 16 \n" // t2 = |0|g|0|r| "andi $t1, $t1, 0xFFFF \n" "subu.ph $t1, $t1, $t6 \n" "shll_s.ph $t1, $t1, 8 \n" "shra.ph $t1, $t1, 8 \n" "addu.ph $t1, $t1, $t6 \n" // Clamp(a)|Clamp(b) "subu.ph $t2, $t2, $t6 \n" "shll_s.ph $t2, $t2, 8 \n" "shra.ph $t2, $t2, 8 \n" "addu.ph $t2, $t2, $t6 \n" // Clamp(g)|Clamp(r) "li $t0, 0xFF \n" "ins $t1, $t0, 16, 8 \n" "precr.qb.ph $t0, $t1, $t2 \n" // t0 = |a|b|g|r| "usw $t0, 0($t5) \n" ".set pop \n" : [filter_val] "+r" (filter_val), [filter_len] "+r" (filter_length), [offset] "+r" (byte_offset), [fy] "+r" (filter_y), [cnt] "+r" (cnt), [out_x] "+r" (out_x), [pixel_width] "+r" (pixel_width) : [src_data_rows] "r" (source_data_rows), [out_row] "r" (out_row), [kShiftBits] "r" (ConvolutionFilter1D::kShiftBits) : "lo", "hi", "$ac1lo", "$ac1hi", "$ac2lo", "$ac2hi", "$ac3lo", "$ac3hi", "t0", "t1", "t2", "t3", "t4", "t5", "t6", "memory" ); } } #endif } } // namespace skia