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ara-mdk / platform / external / libyuv / 33cfdeb7b267ab635413797fffb046b73272f7ec / . / files / source / convert_from.cc
blob: 4ea974acf59ffa0f0d87453b45caa4d8f0bcd854 [file] [log] [blame]
/*
* Copyright 2012 The LibYuv Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#include "libyuv/convert_from.h"
#include "libyuv/basic_types.h"
#include "libyuv/convert.h" // For I420Copy
#include "libyuv/cpu_id.h"
#include "libyuv/format_conversion.h"
#include "libyuv/planar_functions.h"
#include "libyuv/rotate.h"
#include "libyuv/video_common.h"
#include "libyuv/row.h"
#ifdef __cplusplus
namespace libyuv {
extern "C" {
#endif
LIBYUV_API
int I420ToI422(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height) {
if (!src_y || !src_u || !src_v ||
!dst_y || !dst_u || !dst_v ||
width <= 0 || height == 0) {
return -1;
}
// Negative height means invert the image.
if (height < 0) {
height = -height;
dst_y = dst_y + (height - 1) * dst_stride_y;
dst_u = dst_u + (height - 1) * dst_stride_u;
dst_v = dst_v + (height - 1) * dst_stride_v;
dst_stride_y = -dst_stride_y;
dst_stride_u = -dst_stride_u;
dst_stride_v = -dst_stride_v;
}
int halfwidth = (width + 1) >> 1;
void (*CopyRow)(const uint8* src, uint8* dst, int width) = CopyRow_C;
#if defined(HAS_COPYROW_NEON)
if (TestCpuFlag(kCpuHasNEON) && IS_ALIGNED(halfwidth, 64)) {
CopyRow = CopyRow_NEON;
}
#elif defined(HAS_COPYROW_X86)
if (IS_ALIGNED(halfwidth, 4)) {
CopyRow = CopyRow_X86;
#if defined(HAS_COPYROW_SSE2)
if (TestCpuFlag(kCpuHasSSE2) && IS_ALIGNED(halfwidth, 32) &&
IS_ALIGNED(src_u, 16) && IS_ALIGNED(src_stride_u, 16) &&
IS_ALIGNED(src_v, 16) && IS_ALIGNED(src_stride_v, 16) &&
IS_ALIGNED(dst_u, 16) && IS_ALIGNED(dst_stride_u, 16) &&
IS_ALIGNED(dst_v, 16) && IS_ALIGNED(dst_stride_v, 16)) {
CopyRow = CopyRow_SSE2;
}
#endif
}
#endif
// Copy Y plane
if (dst_y) {
CopyPlane(src_y, src_stride_y, dst_y, dst_stride_y, width, height);
}
// UpSample U plane.
int y;
for (y = 0; y < height - 1; y += 2) {
CopyRow(src_u, dst_u, halfwidth);
CopyRow(src_u, dst_u + dst_stride_u, halfwidth);
src_u += src_stride_u;
dst_u += dst_stride_u * 2;
}
if (height & 1) {
CopyRow(src_u, dst_u, halfwidth);
}
// UpSample V plane.
for (y = 0; y < height - 1; y += 2) {
CopyRow(src_v, dst_v, halfwidth);
CopyRow(src_v, dst_v + dst_stride_v, halfwidth);
src_v += src_stride_v;
dst_v += dst_stride_v * 2;
}
if (height & 1) {
CopyRow(src_v, dst_v, halfwidth);
}
return 0;
}
// use Bilinear for upsampling chroma
void ScalePlaneBilinear(int src_width, int src_height,
int dst_width, int dst_height,
int src_stride, int dst_stride,
const uint8* src_ptr, uint8* dst_ptr);
LIBYUV_API
int I420ToI444(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height) {
if (!src_y || !src_u|| !src_v ||
!dst_y || !dst_u || !dst_v ||
width <= 0 || height == 0) {
return -1;
}
// Negative height means invert the image.
if (height < 0) {
height = -height;
dst_y = dst_y + (height - 1) * dst_stride_y;
dst_u = dst_u + (height - 1) * dst_stride_u;
dst_v = dst_v + (height - 1) * dst_stride_v;
dst_stride_y = -dst_stride_y;
dst_stride_u = -dst_stride_u;
dst_stride_v = -dst_stride_v;
}
// Copy Y plane
if (dst_y) {
CopyPlane(src_y, src_stride_y, dst_y, dst_stride_y, width, height);
}
int halfwidth = (width + 1) >> 1;
int halfheight = (height + 1) >> 1;
// Upsample U plane.
ScalePlaneBilinear(halfwidth, halfheight,
width, height,
src_stride_u,
dst_stride_u,
src_u, dst_u);
// Upsample V plane.
ScalePlaneBilinear(halfwidth, halfheight,
width, height,
src_stride_v,
dst_stride_v,
src_v, dst_v);
return 0;
}
// 420 chroma is 1/2 width, 1/2 height
// 411 chroma is 1/4 width, 1x height
LIBYUV_API
int I420ToI411(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_y, int dst_stride_y,
uint8* dst_u, int dst_stride_u,
uint8* dst_v, int dst_stride_v,
int width, int height) {
if (!src_y || !src_u || !src_v ||
!dst_y || !dst_u || !dst_v ||
width <= 0 || height == 0) {
return -1;
}
// Negative height means invert the image.
if (height < 0) {
height = -height;
dst_y = dst_y + (height - 1) * dst_stride_y;
dst_u = dst_u + (height - 1) * dst_stride_u;
dst_v = dst_v + (height - 1) * dst_stride_v;
dst_stride_y = -dst_stride_y;
dst_stride_u = -dst_stride_u;
dst_stride_v = -dst_stride_v;
}
// Copy Y plane
if (dst_y) {
CopyPlane(src_y, src_stride_y, dst_y, dst_stride_y, width, height);
}
int halfwidth = (width + 1) >> 1;
int halfheight = (height + 1) >> 1;
int quarterwidth = (width + 3) >> 2;
// Resample U plane.
ScalePlaneBilinear(halfwidth, halfheight, // from 1/2 width, 1/2 height
quarterwidth, height, // to 1/4 width, 1x height
src_stride_u,
dst_stride_u,
src_u, dst_u);
// Resample V plane.
ScalePlaneBilinear(halfwidth, halfheight, // from 1/2 width, 1/2 height
quarterwidth, height, // to 1/4 width, 1x height
src_stride_v,
dst_stride_v,
src_v, dst_v);
return 0;
}
// Copy to I400. Source can be I420,422,444,400,NV12,NV21
LIBYUV_API
int I400Copy(const uint8* src_y, int src_stride_y,
uint8* dst_y, int dst_stride_y,
int width, int height) {
if (!src_y || !dst_y ||
width <= 0 || height == 0) {
return -1;
}
// Negative height means invert the image.
if (height < 0) {
height = -height;
src_y = src_y + (height - 1) * src_stride_y;
src_stride_y = -src_stride_y;
}
CopyPlane(src_y, src_stride_y, dst_y, dst_stride_y, width, height);
return 0;
}
// YUY2 - Macro-pixel = 2 image pixels
// Y0U0Y1V0....Y2U2Y3V2...Y4U4Y5V4....
// UYVY - Macro-pixel = 2 image pixels
// U0Y0V0Y1
#if !defined(YUV_DISABLE_ASM) && defined(_M_IX86)
#define HAS_I42XTOYUY2ROW_SSE2
__declspec(naked) __declspec(align(16))
static void I42xToYUY2Row_SSE2(const uint8* src_y,
const uint8* src_u,
const uint8* src_v,
uint8* dst_frame, int width) {
__asm {
push esi
push edi
mov eax, [esp + 8 + 4] // src_y
mov esi, [esp + 8 + 8] // src_u
mov edx, [esp + 8 + 12] // src_v
mov edi, [esp + 8 + 16] // dst_frame
mov ecx, [esp + 8 + 20] // width
sub edx, esi
align 16
convertloop:
movq xmm2, qword ptr [esi] // U
movq xmm3, qword ptr [esi + edx] // V
lea esi, [esi + 8]
punpcklbw xmm2, xmm3 // UV
movdqa xmm0, [eax] // Y
lea eax, [eax + 16]
movdqa xmm1, xmm0
punpcklbw xmm0, xmm2 // YUYV
punpckhbw xmm1, xmm2
movdqa [edi], xmm0
movdqa [edi + 16], xmm1
lea edi, [edi + 32]
sub ecx, 16
jg convertloop
pop edi
pop esi
ret
}
}
#define HAS_I42XTOUYVYROW_SSE2
__declspec(naked) __declspec(align(16))
static void I42xToUYVYRow_SSE2(const uint8* src_y,
const uint8* src_u,
const uint8* src_v,
uint8* dst_frame, int width) {
__asm {
push esi
push edi
mov eax, [esp + 8 + 4] // src_y
mov esi, [esp + 8 + 8] // src_u
mov edx, [esp + 8 + 12] // src_v
mov edi, [esp + 8 + 16] // dst_frame
mov ecx, [esp + 8 + 20] // width
sub edx, esi
align 16
convertloop:
movq xmm2, qword ptr [esi] // U
movq xmm3, qword ptr [esi + edx] // V
lea esi, [esi + 8]
punpcklbw xmm2, xmm3 // UV
movdqa xmm0, [eax] // Y
movdqa xmm1, xmm2
lea eax, [eax + 16]
punpcklbw xmm1, xmm0 // UYVY
punpckhbw xmm2, xmm0
movdqa [edi], xmm1
movdqa [edi + 16], xmm2
lea edi, [edi + 32]
sub ecx, 16
jg convertloop
pop edi
pop esi
ret
}
}
#elif !defined(YUV_DISABLE_ASM) && (defined(__x86_64__) || defined(__i386__))
#define HAS_I42XTOYUY2ROW_SSE2
static void I42xToYUY2Row_SSE2(const uint8* src_y,
const uint8* src_u,
const uint8* src_v,
uint8* dst_frame, int width) {
asm volatile (
"sub %1,%2 \n"
".p2align 4 \n"
"1: \n"
"movq (%1),%%xmm2 \n"
"movq (%1,%2,1),%%xmm3 \n"
"lea 0x8(%1),%1 \n"
"punpcklbw %%xmm3,%%xmm2 \n"
"movdqa (%0),%%xmm0 \n"
"lea 0x10(%0),%0 \n"
"movdqa %%xmm0,%%xmm1 \n"
"punpcklbw %%xmm2,%%xmm0 \n"
"punpckhbw %%xmm2,%%xmm1 \n"
"movdqa %%xmm0,(%3) \n"
"movdqa %%xmm1,0x10(%3) \n"
"lea 0x20(%3),%3 \n"
"sub $0x10,%4 \n"
"jg 1b \n"
: "+r"(src_y), // %0
"+r"(src_u), // %1
"+r"(src_v), // %2
"+r"(dst_frame), // %3
"+rm"(width) // %4
:
: "memory", "cc"
#if defined(__SSE2__)
, "xmm0", "xmm1", "xmm2", "xmm3"
#endif
);
}
#define HAS_I42XTOUYVYROW_SSE2
static void I42xToUYVYRow_SSE2(const uint8* src_y,
const uint8* src_u,
const uint8* src_v,
uint8* dst_frame, int width) {
asm volatile (
"sub %1,%2 \n"
".p2align 4 \n"
"1: \n"
"movq (%1),%%xmm2 \n"
"movq (%1,%2,1),%%xmm3 \n"
"lea 0x8(%1),%1 \n"
"punpcklbw %%xmm3,%%xmm2 \n"
"movdqa (%0),%%xmm0 \n"
"movdqa %%xmm2,%%xmm1 \n"
"lea 0x10(%0),%0 \n"
"punpcklbw %%xmm0,%%xmm1 \n"
"punpckhbw %%xmm0,%%xmm2 \n"
"movdqa %%xmm1,(%3) \n"
"movdqa %%xmm2,0x10(%3) \n"
"lea 0x20(%3),%3 \n"
"sub $0x10,%4 \n"
"jg 1b \n"
: "+r"(src_y), // %0
"+r"(src_u), // %1
"+r"(src_v), // %2
"+r"(dst_frame), // %3
"+rm"(width) // %4
:
: "memory", "cc"
#if defined(__SSE2__)
, "xmm0", "xmm1", "xmm2", "xmm3"
#endif
);
}
#endif
static void I42xToYUY2Row_C(const uint8* src_y,
const uint8* src_u,
const uint8* src_v,
uint8* dst_frame, int width) {
for (int x = 0; x < width - 1; x += 2) {
dst_frame[0] = src_y[0];
dst_frame[1] = src_u[0];
dst_frame[2] = src_y[1];
dst_frame[3] = src_v[0];
dst_frame += 4;
src_y += 2;
src_u += 1;
src_v += 1;
}
if (width & 1) {
dst_frame[0] = src_y[0];
dst_frame[1] = src_u[0];
dst_frame[2] = src_y[0]; // duplicate last y
dst_frame[3] = src_v[0];
}
}
static void I42xToUYVYRow_C(const uint8* src_y,
const uint8* src_u,
const uint8* src_v,
uint8* dst_frame, int width) {
for (int x = 0; x < width - 1; x += 2) {
dst_frame[0] = src_u[0];
dst_frame[1] = src_y[0];
dst_frame[2] = src_v[0];
dst_frame[3] = src_y[1];
dst_frame += 4;
src_y += 2;
src_u += 1;
src_v += 1;
}
if (width & 1) {
dst_frame[0] = src_u[0];
dst_frame[1] = src_y[0];
dst_frame[2] = src_v[0];
dst_frame[3] = src_y[0]; // duplicate last y
}
}
// Visual C x86 or GCC little endian.
#if defined(__x86_64__) || defined(_M_X64) || \
defined(__i386__) || defined(_M_IX86) || \
defined(__arm__) || defined(_M_ARM) || \
(defined(__BYTE_ORDER__) && __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__)
#define LIBYUV_LITTLE_ENDIAN
#endif
#ifdef LIBYUV_LITTLE_ENDIAN
#define WRITEWORD(p, v) *reinterpret_cast<uint32*>(p) = v
#else
static inline void WRITEWORD(uint8* p, uint32 v) {
p[0] = (uint8)(v & 255);
p[1] = (uint8)((v >> 8) & 255);
p[2] = (uint8)((v >> 16) & 255);
p[3] = (uint8)((v >> 24) & 255);
}
#endif
#define EIGHTTOTEN(x) (x << 2 | x >> 6)
static void UYVYToV210Row_C(const uint8* src_uyvy, uint8* dst_v210, int width) {
for (int x = 0; x < width; x += 6) {
WRITEWORD(dst_v210 + 0, (EIGHTTOTEN(src_uyvy[0])) |
(EIGHTTOTEN(src_uyvy[1]) << 10) |
(EIGHTTOTEN(src_uyvy[2]) << 20));
WRITEWORD(dst_v210 + 4, (EIGHTTOTEN(src_uyvy[3])) |
(EIGHTTOTEN(src_uyvy[4]) << 10) |
(EIGHTTOTEN(src_uyvy[5]) << 20));
WRITEWORD(dst_v210 + 8, (EIGHTTOTEN(src_uyvy[6])) |
(EIGHTTOTEN(src_uyvy[7]) << 10) |
(EIGHTTOTEN(src_uyvy[8]) << 20));
WRITEWORD(dst_v210 + 12, (EIGHTTOTEN(src_uyvy[9])) |
(EIGHTTOTEN(src_uyvy[10]) << 10) |
(EIGHTTOTEN(src_uyvy[11]) << 20));
src_uyvy += 12;
dst_v210 += 16;
}
}
// TODO(fbarchard): Deprecate, move or expand 422 support?
LIBYUV_API
int I422ToYUY2(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_frame, int dst_stride_frame,
int width, int height) {
if (!src_y || !src_u || !src_v || !dst_frame ||
width <= 0 || height == 0) {
return -1;
}
// Negative height means invert the image.
if (height < 0) {
height = -height;
dst_frame = dst_frame + (height - 1) * dst_stride_frame;
dst_stride_frame = -dst_stride_frame;
}
void (*I42xToYUY2Row)(const uint8* src_y, const uint8* src_u,
const uint8* src_v, uint8* dst_frame, int width) =
I42xToYUY2Row_C;
#if defined(HAS_I42XTOYUY2ROW_SSE2)
if (TestCpuFlag(kCpuHasSSE2) &&
IS_ALIGNED(width, 16) &&
IS_ALIGNED(src_y, 16) && IS_ALIGNED(src_stride_y, 16) &&
IS_ALIGNED(dst_frame, 16) && IS_ALIGNED(dst_stride_frame, 16)) {
I42xToYUY2Row = I42xToYUY2Row_SSE2;
}
#endif
for (int y = 0; y < height; ++y) {
I42xToYUY2Row(src_y, src_u, src_y, dst_frame, width);
src_y += src_stride_y;
src_u += src_stride_u;
src_v += src_stride_v;
dst_frame += dst_stride_frame;
}
return 0;
}
LIBYUV_API
int I420ToYUY2(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_frame, int dst_stride_frame,
int width, int height) {
if (!src_y || !src_u || !src_v || !dst_frame ||
width <= 0 || height == 0) {
return -1;
}
// Negative height means invert the image.
if (height < 0) {
height = -height;
dst_frame = dst_frame + (height - 1) * dst_stride_frame;
dst_stride_frame = -dst_stride_frame;
}
void (*I42xToYUY2Row)(const uint8* src_y, const uint8* src_u,
const uint8* src_v, uint8* dst_frame, int width) =
I42xToYUY2Row_C;
#if defined(HAS_I42XTOYUY2ROW_SSE2)
if (TestCpuFlag(kCpuHasSSE2) &&
IS_ALIGNED(width, 16) &&
IS_ALIGNED(src_y, 16) && IS_ALIGNED(src_stride_y, 16) &&
IS_ALIGNED(dst_frame, 16) && IS_ALIGNED(dst_stride_frame, 16)) {
I42xToYUY2Row = I42xToYUY2Row_SSE2;
}
#endif
for (int y = 0; y < height - 1; y += 2) {
I42xToYUY2Row(src_y, src_u, src_v, dst_frame, width);
I42xToYUY2Row(src_y + src_stride_y, src_u, src_v,
dst_frame + dst_stride_frame, width);
src_y += src_stride_y * 2;
src_u += src_stride_u;
src_v += src_stride_v;
dst_frame += dst_stride_frame * 2;
}
if (height & 1) {
I42xToYUY2Row(src_y, src_u, src_v, dst_frame, width);
}
return 0;
}
// TODO(fbarchard): Deprecate, move or expand 422 support?
LIBYUV_API
int I422ToUYVY(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_frame, int dst_stride_frame,
int width, int height) {
if (!src_y || !src_u || !src_v || !dst_frame ||
width <= 0 || height == 0) {
return -1;
}
// Negative height means invert the image.
if (height < 0) {
height = -height;
dst_frame = dst_frame + (height - 1) * dst_stride_frame;
dst_stride_frame = -dst_stride_frame;
}
void (*I42xToUYVYRow)(const uint8* src_y, const uint8* src_u,
const uint8* src_v, uint8* dst_frame, int width) =
I42xToUYVYRow_C;
#if defined(HAS_I42XTOUYVYROW_SSE2)
if (TestCpuFlag(kCpuHasSSE2) &&
IS_ALIGNED(width, 16) &&
IS_ALIGNED(src_y, 16) && IS_ALIGNED(src_stride_y, 16) &&
IS_ALIGNED(dst_frame, 16) && IS_ALIGNED(dst_stride_frame, 16)) {
I42xToUYVYRow = I42xToUYVYRow_SSE2;
}
#endif
for (int y = 0; y < height; ++y) {
I42xToUYVYRow(src_y, src_u, src_y, dst_frame, width);
src_y += src_stride_y;
src_u += src_stride_u;
src_v += src_stride_v;
dst_frame += dst_stride_frame;
}
return 0;
}
LIBYUV_API
int I420ToUYVY(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_frame, int dst_stride_frame,
int width, int height) {
if (!src_y || !src_u || !src_v || !dst_frame ||
width <= 0 || height == 0) {
return -1;
}
// Negative height means invert the image.
if (height < 0) {
height = -height;
dst_frame = dst_frame + (height - 1) * dst_stride_frame;
dst_stride_frame = -dst_stride_frame;
}
void (*I42xToUYVYRow)(const uint8* src_y, const uint8* src_u,
const uint8* src_v, uint8* dst_frame, int width) =
I42xToUYVYRow_C;
#if defined(HAS_I42XTOUYVYROW_SSE2)
if (TestCpuFlag(kCpuHasSSE2) &&
IS_ALIGNED(width, 16) &&
IS_ALIGNED(src_y, 16) && IS_ALIGNED(src_stride_y, 16) &&
IS_ALIGNED(dst_frame, 16) && IS_ALIGNED(dst_stride_frame, 16)) {
I42xToUYVYRow = I42xToUYVYRow_SSE2;
}
#endif
for (int y = 0; y < height - 1; y += 2) {
I42xToUYVYRow(src_y, src_u, src_v, dst_frame, width);
I42xToUYVYRow(src_y + src_stride_y, src_u, src_v,
dst_frame + dst_stride_frame, width);
src_y += src_stride_y * 2;
src_u += src_stride_u;
src_v += src_stride_v;
dst_frame += dst_stride_frame * 2;
}
if (height & 1) {
I42xToUYVYRow(src_y, src_u, src_v, dst_frame, width);
}
return 0;
}
LIBYUV_API
int I420ToV210(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_frame, int dst_stride_frame,
int width, int height) {
if (width * 16 / 6 > kMaxStride) { // Row buffer of V210 is required.
return -1;
} else if (!src_y || !src_u || !src_v || !dst_frame ||
width <= 0 || height == 0) {
return -1;
}
// Negative height means invert the image.
if (height < 0) {
height = -height;
dst_frame = dst_frame + (height - 1) * dst_stride_frame;
dst_stride_frame = -dst_stride_frame;
}
SIMD_ALIGNED(uint8 row[kMaxStride]);
void (*UYVYToV210Row)(const uint8* src_uyvy, uint8* dst_v210, int pix);
UYVYToV210Row = UYVYToV210Row_C;
void (*I42xToUYVYRow)(const uint8* src_y, const uint8* src_u,
const uint8* src_v, uint8* dst_frame, int width) =
I42xToUYVYRow_C;
#if defined(HAS_I42XTOUYVYROW_SSE2)
if (TestCpuFlag(kCpuHasSSE2) &&
IS_ALIGNED(width, 16) &&
IS_ALIGNED(src_y, 16) && IS_ALIGNED(src_stride_y, 16)) {
I42xToUYVYRow = I42xToUYVYRow_SSE2;
}
#endif
for (int y = 0; y < height - 1; y += 2) {
I42xToUYVYRow(src_y, src_u, src_v, row, width);
UYVYToV210Row(row, dst_frame, width);
I42xToUYVYRow(src_y + src_stride_y, src_u, src_v, row, width);
UYVYToV210Row(row, dst_frame + dst_stride_frame, width);
src_y += src_stride_y * 2;
src_u += src_stride_u;
src_v += src_stride_v;
dst_frame += dst_stride_frame * 2;
}
if (height & 1) {
I42xToUYVYRow(src_y, src_u, src_v, row, width);
UYVYToV210Row(row, dst_frame, width);
}
return 0;
}
// Convert I420 to ARGB.
LIBYUV_API
int I420ToARGB(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_argb, int dst_stride_argb,
int width, int height) {
if (!src_y || !src_u || !src_v || !dst_argb ||
width <= 0 || height == 0) {
return -1;
}
// Negative height means invert the image.
if (height < 0) {
height = -height;
dst_argb = dst_argb + (height - 1) * dst_stride_argb;
dst_stride_argb = -dst_stride_argb;
}
void (*I422ToARGBRow)(const uint8* y_buf,
const uint8* u_buf,
const uint8* v_buf,
uint8* rgb_buf,
int width) = I422ToARGBRow_C;
#if defined(HAS_I422TOARGBROW_NEON)
if (TestCpuFlag(kCpuHasNEON)) {
I422ToARGBRow = I422ToARGBRow_Any_NEON;
if (IS_ALIGNED(width, 16)) {
I422ToARGBRow = I422ToARGBRow_NEON;
}
}
#elif defined(HAS_I422TOARGBROW_SSSE3)
if (TestCpuFlag(kCpuHasSSSE3) && width >= 8) {
I422ToARGBRow = I422ToARGBRow_Any_SSSE3;
if (IS_ALIGNED(width, 8)) {
I422ToARGBRow = I422ToARGBRow_Unaligned_SSSE3;
if (IS_ALIGNED(dst_argb, 16) && IS_ALIGNED(dst_stride_argb, 16)) {
I422ToARGBRow = I422ToARGBRow_SSSE3;
}
}
}
#endif
for (int y = 0; y < height; ++y) {
I422ToARGBRow(src_y, src_u, src_v, dst_argb, width);
dst_argb += dst_stride_argb;
src_y += src_stride_y;
if (y & 1) {
src_u += src_stride_u;
src_v += src_stride_v;
}
}
return 0;
}
// Convert I420 to BGRA.
LIBYUV_API
int I420ToBGRA(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_bgra, int dst_stride_bgra,
int width, int height) {
if (!src_y || !src_u || !src_v ||
!dst_bgra ||
width <= 0 || height == 0) {
return -1;
}
// Negative height means invert the image.
if (height < 0) {
height = -height;
dst_bgra = dst_bgra + (height - 1) * dst_stride_bgra;
dst_stride_bgra = -dst_stride_bgra;
}
void (*I422ToBGRARow)(const uint8* y_buf,
const uint8* u_buf,
const uint8* v_buf,
uint8* rgb_buf,
int width) = I422ToBGRARow_C;
#if defined(HAS_I422TOBGRAROW_NEON)
if (TestCpuFlag(kCpuHasNEON)) {
I422ToBGRARow = I422ToBGRARow_Any_NEON;
if (IS_ALIGNED(width, 16)) {
I422ToBGRARow = I422ToBGRARow_NEON;
}
}
#elif defined(HAS_I422TOBGRAROW_SSSE3)
if (TestCpuFlag(kCpuHasSSSE3) && width >= 8) {
I422ToBGRARow = I422ToBGRARow_Any_SSSE3;
if (IS_ALIGNED(width, 8)) {
I422ToBGRARow = I422ToBGRARow_Unaligned_SSSE3;
if (IS_ALIGNED(dst_bgra, 16) && IS_ALIGNED(dst_stride_bgra, 16)) {
I422ToBGRARow = I422ToBGRARow_SSSE3;
}
}
}
#endif
for (int y = 0; y < height; ++y) {
I422ToBGRARow(src_y, src_u, src_v, dst_bgra, width);
dst_bgra += dst_stride_bgra;
src_y += src_stride_y;
if (y & 1) {
src_u += src_stride_u;
src_v += src_stride_v;
}
}
return 0;
}
// Convert I420 to ABGR.
LIBYUV_API
int I420ToABGR(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_abgr, int dst_stride_abgr,
int width, int height) {
if (!src_y || !src_u || !src_v ||
!dst_abgr ||
width <= 0 || height == 0) {
return -1;
}
// Negative height means invert the image.
if (height < 0) {
height = -height;
dst_abgr = dst_abgr + (height - 1) * dst_stride_abgr;
dst_stride_abgr = -dst_stride_abgr;
}
void (*I422ToABGRRow)(const uint8* y_buf,
const uint8* u_buf,
const uint8* v_buf,
uint8* rgb_buf,
int width) = I422ToABGRRow_C;
#if defined(HAS_I422TOABGRROW_NEON)
if (TestCpuFlag(kCpuHasNEON)) {
I422ToABGRRow = I422ToABGRRow_Any_NEON;
if (IS_ALIGNED(width, 16)) {
I422ToABGRRow = I422ToABGRRow_NEON;
}
}
#elif defined(HAS_I422TOABGRROW_SSSE3)
if (TestCpuFlag(kCpuHasSSSE3) && width >= 8) {
I422ToABGRRow = I422ToABGRRow_Any_SSSE3;
if (IS_ALIGNED(width, 8)) {
I422ToABGRRow = I422ToABGRRow_Unaligned_SSSE3;
if (IS_ALIGNED(dst_abgr, 16) && IS_ALIGNED(dst_stride_abgr, 16)) {
I422ToABGRRow = I422ToABGRRow_SSSE3;
}
}
}
#endif
for (int y = 0; y < height; ++y) {
I422ToABGRRow(src_y, src_u, src_v, dst_abgr, width);
dst_abgr += dst_stride_abgr;
src_y += src_stride_y;
if (y & 1) {
src_u += src_stride_u;
src_v += src_stride_v;
}
}
return 0;
}
// Convert I420 to RGBA.
LIBYUV_API
int I420ToRGBA(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_rgba, int dst_stride_rgba,
int width, int height) {
if (!src_y || !src_u || !src_v ||
!dst_rgba ||
width <= 0 || height == 0) {
return -1;
}
// Negative height means invert the image.
if (height < 0) {
height = -height;
dst_rgba = dst_rgba + (height - 1) * dst_stride_rgba;
dst_stride_rgba = -dst_stride_rgba;
}
void (*I422ToRGBARow)(const uint8* y_buf,
const uint8* u_buf,
const uint8* v_buf,
uint8* rgb_buf,
int width) = I422ToRGBARow_C;
#if defined(HAS_I422TORGBAROW_NEON)
if (TestCpuFlag(kCpuHasNEON)) {
I422ToRGBARow = I422ToRGBARow_Any_NEON;
if (IS_ALIGNED(width, 16)) {
I422ToRGBARow = I422ToRGBARow_NEON;
}
}
#elif defined(HAS_I422TORGBAROW_SSSE3)
if (TestCpuFlag(kCpuHasSSSE3) && width >= 8) {
I422ToRGBARow = I422ToRGBARow_Any_SSSE3;
if (IS_ALIGNED(width, 8)) {
I422ToRGBARow = I422ToRGBARow_Unaligned_SSSE3;
if (IS_ALIGNED(dst_rgba, 16) && IS_ALIGNED(dst_stride_rgba, 16)) {
I422ToRGBARow = I422ToRGBARow_SSSE3;
}
}
}
#endif
for (int y = 0; y < height; ++y) {
I422ToRGBARow(src_y, src_u, src_v, dst_rgba, width);
dst_rgba += dst_stride_rgba;
src_y += src_stride_y;
if (y & 1) {
src_u += src_stride_u;
src_v += src_stride_v;
}
}
return 0;
}
// Convert I420 to RGB24.
LIBYUV_API
int I420ToRGB24(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_rgb24, int dst_stride_rgb24,
int width, int height) {
if (!src_y || !src_u || !src_v ||
!dst_rgb24 ||
width <= 0 || height == 0) {
return -1;
}
// Negative height means invert the image.
if (height < 0) {
height = -height;
dst_rgb24 = dst_rgb24 + (height - 1) * dst_stride_rgb24;
dst_stride_rgb24 = -dst_stride_rgb24;
}
void (*I422ToRGB24Row)(const uint8* y_buf,
const uint8* u_buf,
const uint8* v_buf,
uint8* rgb_buf,
int width) = I422ToRGB24Row_C;
#if defined(HAS_I422TORGB24ROW_NEON)
if (TestCpuFlag(kCpuHasNEON)) {
I422ToRGB24Row = I422ToRGB24Row_Any_NEON;
if (IS_ALIGNED(width, 16)) {
I422ToRGB24Row = I422ToRGB24Row_NEON;
}
}
#elif defined(HAS_I422TORGB24ROW_SSSE3)
if (TestCpuFlag(kCpuHasSSSE3) && width >= 8) {
I422ToRGB24Row = I422ToRGB24Row_Any_SSSE3;
if (IS_ALIGNED(width, 8)) {
I422ToRGB24Row = I422ToRGB24Row_Unaligned_SSSE3;
if (IS_ALIGNED(dst_rgb24, 16) && IS_ALIGNED(dst_stride_rgb24, 16)) {
I422ToRGB24Row = I422ToRGB24Row_SSSE3;
}
}
}
#endif
for (int y = 0; y < height; ++y) {
I422ToRGB24Row(src_y, src_u, src_v, dst_rgb24, width);
dst_rgb24 += dst_stride_rgb24;
src_y += src_stride_y;
if (y & 1) {
src_u += src_stride_u;
src_v += src_stride_v;
}
}
return 0;
}
// Convert I420 to RAW.
LIBYUV_API
int I420ToRAW(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_raw, int dst_stride_raw,
int width, int height) {
if (!src_y || !src_u || !src_v ||
!dst_raw ||
width <= 0 || height == 0) {
return -1;
}
// Negative height means invert the image.
if (height < 0) {
height = -height;
dst_raw = dst_raw + (height - 1) * dst_stride_raw;
dst_stride_raw = -dst_stride_raw;
}
void (*I422ToRAWRow)(const uint8* y_buf,
const uint8* u_buf,
const uint8* v_buf,
uint8* rgb_buf,
int width) = I422ToRAWRow_C;
#if defined(HAS_I422TORAWROW_NEON)
if (TestCpuFlag(kCpuHasNEON)) {
I422ToRAWRow = I422ToRAWRow_Any_NEON;
if (IS_ALIGNED(width, 16)) {
I422ToRAWRow = I422ToRAWRow_NEON;
}
}
#elif defined(HAS_I422TORAWROW_SSSE3)
if (TestCpuFlag(kCpuHasSSSE3) && width >= 8) {
I422ToRAWRow = I422ToRAWRow_Any_SSSE3;
if (IS_ALIGNED(width, 8)) {
I422ToRAWRow = I422ToRAWRow_Unaligned_SSSE3;
if (IS_ALIGNED(dst_raw, 16) && IS_ALIGNED(dst_stride_raw, 16)) {
I422ToRAWRow = I422ToRAWRow_SSSE3;
}
}
}
#endif
for (int y = 0; y < height; ++y) {
I422ToRAWRow(src_y, src_u, src_v, dst_raw, width);
dst_raw += dst_stride_raw;
src_y += src_stride_y;
if (y & 1) {
src_u += src_stride_u;
src_v += src_stride_v;
}
}
return 0;
}
// Convert I420 to RGB565.
LIBYUV_API
int I420ToRGB565(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_rgb, int dst_stride_rgb,
int width, int height) {
if (!src_y || !src_u || !src_v ||
!dst_rgb ||
width <= 0 || height == 0) {
return -1;
}
// Negative height means invert the image.
if (height < 0) {
height = -height;
dst_rgb = dst_rgb + (height - 1) * dst_stride_rgb;
dst_stride_rgb = -dst_stride_rgb;
}
void (*I422ToARGBRow)(const uint8* y_buf,
const uint8* u_buf,
const uint8* v_buf,
uint8* rgb_buf,
int width) = I422ToARGBRow_C;
#if defined(HAS_I422TOARGBROW_NEON)
if (TestCpuFlag(kCpuHasNEON)) {
I422ToARGBRow = I422ToARGBRow_NEON;
}
#elif defined(HAS_I422TOARGBROW_SSSE3)
if (TestCpuFlag(kCpuHasSSSE3)) {
I422ToARGBRow = I422ToARGBRow_SSSE3;
}
#endif
SIMD_ALIGNED(uint8 row[kMaxStride]);
void (*ARGBToRGB565Row)(const uint8* src_rgb, uint8* dst_rgb, int pix) =
ARGBToRGB565Row_C;
#if defined(HAS_ARGBTORGB565ROW_SSE2)
if (TestCpuFlag(kCpuHasSSE2)) {
if (width * 2 <= kMaxStride) {
ARGBToRGB565Row = ARGBToRGB565Row_Any_SSE2;
}
if (IS_ALIGNED(width, 4)) {
ARGBToRGB565Row = ARGBToRGB565Row_SSE2;
}
}
#endif
for (int y = 0; y < height; ++y) {
I422ToARGBRow(src_y, src_u, src_v, row, width);
ARGBToRGB565Row(row, dst_rgb, width);
dst_rgb += dst_stride_rgb;
src_y += src_stride_y;
if (y & 1) {
src_u += src_stride_u;
src_v += src_stride_v;
}
}
return 0;
}
// Convert I420 to ARGB1555.
LIBYUV_API
int I420ToARGB1555(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_argb, int dst_stride_argb,
int width, int height) {
if (!src_y || !src_u || !src_v ||
!dst_argb ||
width <= 0 || height == 0) {
return -1;
}
// Negative height means invert the image.
if (height < 0) {
height = -height;
dst_argb = dst_argb + (height - 1) * dst_stride_argb;
dst_stride_argb = -dst_stride_argb;
}
void (*I422ToARGBRow)(const uint8* y_buf,
const uint8* u_buf,
const uint8* v_buf,
uint8* rgb_buf,
int width) = I422ToARGBRow_C;
#if defined(HAS_I422TOARGBROW_NEON)
if (TestCpuFlag(kCpuHasNEON)) {
I422ToARGBRow = I422ToARGBRow_NEON;
}
#elif defined(HAS_I422TOARGBROW_SSSE3)
if (TestCpuFlag(kCpuHasSSSE3)) {
I422ToARGBRow = I422ToARGBRow_SSSE3;
}
#endif
SIMD_ALIGNED(uint8 row[kMaxStride]);
void (*ARGBToARGB1555Row)(const uint8* src_argb, uint8* dst_rgb, int pix) =
ARGBToARGB1555Row_C;
#if defined(HAS_ARGBTOARGB1555ROW_SSE2)
if (TestCpuFlag(kCpuHasSSE2)) {
if (width * 2 <= kMaxStride) {
ARGBToARGB1555Row = ARGBToARGB1555Row_Any_SSE2;
}
if (IS_ALIGNED(width, 4)) {
ARGBToARGB1555Row = ARGBToARGB1555Row_SSE2;
}
}
#endif
for (int y = 0; y < height; ++y) {
I422ToARGBRow(src_y, src_u, src_v, row, width);
ARGBToARGB1555Row(row, dst_argb, width);
dst_argb += dst_stride_argb;
src_y += src_stride_y;
if (y & 1) {
src_u += src_stride_u;
src_v += src_stride_v;
}
}
return 0;
}
// Convert I420 to ARGB4444.
LIBYUV_API
int I420ToARGB4444(const uint8* src_y, int src_stride_y,
const uint8* src_u, int src_stride_u,
const uint8* src_v, int src_stride_v,
uint8* dst_argb, int dst_stride_argb,
int width, int height) {
if (!src_y || !src_u || !src_v ||
!dst_argb ||
width <= 0 || height == 0) {
return -1;
}
// Negative height means invert the image.
if (height < 0) {
height = -height;
dst_argb = dst_argb + (height - 1) * dst_stride_argb;
dst_stride_argb = -dst_stride_argb;
}
void (*I422ToARGBRow)(const uint8* y_buf,
const uint8* u_buf,
const uint8* v_buf,
uint8* rgb_buf,
int width) = I422ToARGBRow_C;
#if defined(HAS_I422TOARGBROW_NEON)
if (TestCpuFlag(kCpuHasNEON)) {
I422ToARGBRow = I422ToARGBRow_NEON;
}
#elif defined(HAS_I422TOARGBROW_SSSE3)
if (TestCpuFlag(kCpuHasSSSE3)) {
I422ToARGBRow = I422ToARGBRow_SSSE3;
}
#endif
SIMD_ALIGNED(uint8 row[kMaxStride]);
void (*ARGBToARGB4444Row)(const uint8* src_argb, uint8* dst_rgb, int pix) =
ARGBToARGB4444Row_C;
#if defined(HAS_ARGBTOARGB4444ROW_SSE2)
if (TestCpuFlag(kCpuHasSSE2)) {
if (width * 2 <= kMaxStride) {
ARGBToARGB4444Row = ARGBToARGB4444Row_Any_SSE2;
}
if (IS_ALIGNED(width, 4)) {
ARGBToARGB4444Row = ARGBToARGB4444Row_SSE2;
}
}
#endif
for (int y = 0; y < height; ++y) {
I422ToARGBRow(src_y, src_u, src_v, row, width);
ARGBToARGB4444Row(row, dst_argb, width);
dst_argb += dst_stride_argb;
src_y += src_stride_y;
if (y & 1) {
src_u += src_stride_u;
src_v += src_stride_v;
}
}
return 0;
}
// Convert I420 to specified format
LIBYUV_API
int ConvertFromI420(const uint8* y, int y_stride,
const uint8* u, int u_stride,
const uint8* v, int v_stride,
uint8* dst_sample, int dst_sample_stride,
int width, int height,
uint32 format) {
if (!y || !u|| !v || !dst_sample ||
width <= 0 || height == 0) {
return -1;
}
int r = 0;
switch (format) {
// Single plane formats
case FOURCC_YUY2:
r = I420ToYUY2(y, y_stride,
u, u_stride,
v, v_stride,
dst_sample,
dst_sample_stride ? dst_sample_stride : width * 2,
width, height);
break;
case FOURCC_UYVY:
r = I420ToUYVY(y, y_stride,
u, u_stride,
v, v_stride,
dst_sample,
dst_sample_stride ? dst_sample_stride : width * 2,
width, height);
break;
case FOURCC_V210:
r = I420ToV210(y, y_stride,
u, u_stride,
v, v_stride,
dst_sample,
dst_sample_stride ? dst_sample_stride :
(width + 47) / 48 * 128,
width, height);
break;
case FOURCC_RGBP:
r = I420ToRGB565(y, y_stride,
u, u_stride,
v, v_stride,
dst_sample,
dst_sample_stride ? dst_sample_stride : width * 2,
width, height);
break;
case FOURCC_RGBO:
r = I420ToARGB1555(y, y_stride,
u, u_stride,
v, v_stride,
dst_sample,
dst_sample_stride ? dst_sample_stride : width * 2,
width, height);
break;
case FOURCC_R444:
r = I420ToARGB4444(y, y_stride,
u, u_stride,
v, v_stride,
dst_sample,
dst_sample_stride ? dst_sample_stride : width * 2,
width, height);
break;
case FOURCC_24BG:
r = I420ToRGB24(y, y_stride,
u, u_stride,
v, v_stride,
dst_sample,
dst_sample_stride ? dst_sample_stride : width * 3,
width, height);
break;
case FOURCC_RAW:
r = I420ToRAW(y, y_stride,
u, u_stride,
v, v_stride,
dst_sample,
dst_sample_stride ? dst_sample_stride : width * 3,
width, height);
break;
case FOURCC_ARGB:
r = I420ToARGB(y, y_stride,
u, u_stride,
v, v_stride,
dst_sample,
dst_sample_stride ? dst_sample_stride : width * 4,
width, height);
break;
case FOURCC_BGRA:
r = I420ToBGRA(y, y_stride,
u, u_stride,
v, v_stride,
dst_sample,
dst_sample_stride ? dst_sample_stride : width * 4,
width, height);
break;
case FOURCC_ABGR:
r = I420ToABGR(y, y_stride,
u, u_stride,
v, v_stride,
dst_sample,
dst_sample_stride ? dst_sample_stride : width * 4,
width, height);
break;
case FOURCC_RGBA:
r = I420ToRGBA(y, y_stride,
u, u_stride,
v, v_stride,
dst_sample,
dst_sample_stride ? dst_sample_stride : width * 4,
width, height);
break;
case FOURCC_BGGR:
r = I420ToBayerBGGR(y, y_stride,
u, u_stride,
v, v_stride,
dst_sample,
dst_sample_stride ? dst_sample_stride : width,
width, height);
break;
case FOURCC_GBRG:
r = I420ToBayerGBRG(y, y_stride,
u, u_stride,
v, v_stride,
dst_sample,
dst_sample_stride ? dst_sample_stride : width,
width, height);
break;
case FOURCC_GRBG:
r = I420ToBayerGRBG(y, y_stride,
u, u_stride,
v, v_stride,
dst_sample,
dst_sample_stride ? dst_sample_stride : width,
width, height);
break;
case FOURCC_RGGB:
r = I420ToBayerRGGB(y, y_stride,
u, u_stride,
v, v_stride,
dst_sample,
dst_sample_stride ? dst_sample_stride : width,
width, height);
break;
case FOURCC_I400:
r = I400Copy(y, y_stride,
dst_sample,
dst_sample_stride ? dst_sample_stride : width,
width, height);
break;
// Triplanar formats
// TODO(fbarchard): halfstride instead of halfwidth
case FOURCC_I420:
case FOURCC_YU12:
case FOURCC_YV12: {
int halfwidth = (width + 1) / 2;
int halfheight = (height + 1) / 2;
uint8* dst_u;
uint8* dst_v;
if (format == FOURCC_YV12) {
dst_v = dst_sample + width * height;
dst_u = dst_v + halfwidth * halfheight;
} else {
dst_u = dst_sample + width * height;
dst_v = dst_u + halfwidth * halfheight;
}
r = I420Copy(y, y_stride,
u, u_stride,
v, v_stride,
dst_sample, width,
dst_u, halfwidth,
dst_v, halfwidth,
width, height);
break;
}
case FOURCC_I422:
case FOURCC_YV16: {
int halfwidth = (width + 1) / 2;
uint8* dst_u;
uint8* dst_v;
if (format == FOURCC_YV16) {
dst_v = dst_sample + width * height;
dst_u = dst_v + halfwidth * height;
} else {
dst_u = dst_sample + width * height;
dst_v = dst_u + halfwidth * height;
}
r = I420ToI422(y, y_stride,
u, u_stride,
v, v_stride,
dst_sample, width,
dst_u, halfwidth,
dst_v, halfwidth,
width, height);
break;
}
case FOURCC_I444:
case FOURCC_YV24: {
uint8* dst_u;
uint8* dst_v;
if (format == FOURCC_YV24) {
dst_v = dst_sample + width * height;
dst_u = dst_v + width * height;
} else {
dst_u = dst_sample + width * height;
dst_v = dst_u + width * height;
}
r = I420ToI444(y, y_stride,
u, u_stride,
v, v_stride,
dst_sample, width,
dst_u, width,
dst_v, width,
width, height);
break;
}
case FOURCC_I411: {
int quarterwidth = (width + 3) / 4;
uint8* dst_u = dst_sample + width * height;
uint8* dst_v = dst_u + quarterwidth * height;
r = I420ToI411(y, y_stride,
u, u_stride,
v, v_stride,
dst_sample, width,
dst_u, quarterwidth,
dst_v, quarterwidth,
width, height);
break;
}
// Formats not supported - MJPG, biplanar, some rgb formats.
default:
return -1; // unknown fourcc - return failure code.
}
return r;
}
#ifdef __cplusplus
} // extern "C"
} // namespace libyuv
#endif