* Copyright (C) 2026 Huawei Device Co., Ltd.
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <string>
#include <fcntl.h>
#include "gtest/gtest.h"
#include "native_avcodec_videodecoder.h"
#include "native_averrors.h"
#include "videodec_api11_sample.h"
#include "native_avcodec_base.h"
#include "avcodec_codec_name.h"
#include "native_avcapability.h"
#include "native_avformat.h"
#include "native_avdemuxer.h"
#include "native_avsource.h"
#include "native_avmemory.h"
#include "videoenc_sample.h"
#define MAX_THREAD 16
using namespace std;
using namespace OHOS;
using namespace OHOS::Media;
using namespace testing::ext;
namespace {
OH_AVCapability *g_cap = nullptr;
static constexpr uint32_t CODEC_NAME_SIZE = 128;
char g_codecName[CODEC_NAME_SIZE] = {};
}
namespace OHOS {
namespace Media {
class CinepakdecFuncNdkTest : public testing::Test {
public:
static void SetUpTestCase();
static void TearDownTestCase();
void SetUp() override;
void TearDown() override;
void InputFunc();
void OutputFunc();
void Release();
int32_t Stop();
protected:
const char *INP_DIR_1 = "/data/test/media/cinepak.cinepak";
const char *INP_DIR_2 = "/data/test/media/cinepak.mkv";
const char *INP_DIR_3 = "/data/test/media/cinepak.mov";
const char *INP_DIR_4 = "/data/test/media/cinepak.asf";
const char *INP_DIR_5 = "/data/test/media/cinepak.avi";
const char *INP_DIR_6 = "/data/test/media/cinepak_4_4_30.mkv";
const char *INP_DIR_7 = "/data/test/media/cinepak_480_640_30.mkv";
const char *INP_DIR_8 = "/data/test/media/cinepak_600_800_30.mkv";
const char *INP_DIR_9 = "/data/test/media/cinepak_720_480_25.mkv";
const char *INP_DIR_10 = "/data/test/media/cinepak_1080_1920_30.mkv";
const char *INP_DIR_11 = "/data/test/media/cinepak_1280_720_30.mkv";
const char *INP_DIR_12 = "/data/test/media/cinepak_1920_1080_30.mkv";
};
static OH_AVCapability *cap_cinepak = nullptr;
static string g_codecNameCinepak = "";
static constexpr uint32_t FRAMESIZE5 = 5;
static constexpr uint32_t FRAMESIZE20 = 20;
static constexpr uint32_t DEFAULTWIDTH = 720;
static constexpr uint32_t DEFAULTHEIGHT = 480;
void CinepakdecFuncNdkTest::SetUpTestCase()
{
cap_cinepak = OH_AVCodec_GetCapabilityByCategory(OH_AVCODEC_MIMETYPE_VIDEO_CINEPAK, false, SOFTWARE);
g_codecNameCinepak = OH_AVCapability_GetName(cap_cinepak);
cout << "g_codecNameCinepak: " << g_codecNameCinepak << endl;
g_cap = OH_AVCodec_GetCapabilityByCategory(OH_AVCODEC_MIMETYPE_VIDEO_AVC, true, HARDWARE);
const char *tmpCodecName = OH_AVCapability_GetName(g_cap);
if (memcpy_s(g_codecName, sizeof(g_codecName), tmpCodecName, strlen(tmpCodecName)) != 0)
cout << "memcpy failed" << endl;
cout << "codecname: " << g_codecName << endl;
}
void CinepakdecFuncNdkTest::TearDownTestCase() {}
void CinepakdecFuncNdkTest::SetUp() {}
void CinepakdecFuncNdkTest::TearDown() {}
}
}
static void getVideoSizeRange(OH_AVRange *widthRange, OH_AVRange *heightRange)
{
memset_s(widthRange, sizeof(OH_AVRange), 0, sizeof(OH_AVRange));
memset_s(heightRange, sizeof(OH_AVRange), 0, sizeof(OH_AVRange));
OH_AVCapability *capability = OH_AVCodec_GetCapabilityByCategory(
OH_AVCODEC_MIMETYPE_VIDEO_CINEPAK, false, SOFTWARE);
OH_AVCapability_GetVideoHeightRangeForWidth(capability, DEFAULTWIDTH, heightRange);
cout << "minval=" << heightRange->minVal << " maxval=" << heightRange->maxVal << endl;
OH_AVCapability_GetVideoWidthRangeForHeight(capability, DEFAULTHEIGHT, widthRange);
cout << "minval=" << widthRange->minVal << " maxval=" << widthRange->maxVal << endl;
}
namespace {
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0001
* @tc.name : Decode Cinepak buffer, 720x480, NV12
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0001, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->inputDir = INP_DIR_1;
vDecSample->outputYuvFlag = true;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder());
ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback());
ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoderReadStream());
vDecSample->WaitForEOS();
ASSERT_EQ(0, vDecSample->errCount);
ASSERT_EQ(FRAMESIZE20, vDecSample->outFrameCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0002
* @tc.name : Decode Cinepak buffer with 90-degree rotation
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0002, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->inputDir = INP_DIR_1;
vDecSample->getFormat(INP_DIR_2);
int32_t angle = 90;
(void)OH_AVFormat_SetIntValue(vDecSample->trackFormat, OH_MD_KEY_ROTATION, angle);
vDecSample->outputYuvFlag = true;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder());
ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback());
ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoderReadStream());
vDecSample->WaitForEOS();
ASSERT_EQ(0, vDecSample->errCount);
ASSERT_EQ(FRAMESIZE20, vDecSample->outFrameCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0003
* @tc.name : Decode Cinepak buffer with 180-degree rotation
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0003, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->inputDir = INP_DIR_1;
vDecSample->getFormat(INP_DIR_2);
int32_t angle = 180;
(void)OH_AVFormat_SetIntValue(vDecSample->trackFormat, OH_MD_KEY_ROTATION, angle);
vDecSample->outputYuvFlag = true;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder());
ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback());
ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoderReadStream());
vDecSample->WaitForEOS();
ASSERT_EQ(0, vDecSample->errCount);
ASSERT_EQ(FRAMESIZE20, vDecSample->outFrameCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0004
* @tc.name : Decode Cinepak buffer with 270-degree rotation
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0004, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->inputDir = INP_DIR_1;
vDecSample->getFormat(INP_DIR_2);
int32_t angle = 270;
(void)OH_AVFormat_SetIntValue(vDecSample->trackFormat, OH_MD_KEY_ROTATION, angle);
vDecSample->outputYuvFlag = true;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder());
ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback());
ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoderReadStream());
vDecSample->WaitForEOS();
ASSERT_EQ(0, vDecSample->errCount);
ASSERT_EQ(FRAMESIZE20, vDecSample->outFrameCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0005
* @tc.name : Decode H.263 buffer with NV12 pixel format
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0005, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_2);
vDecSample->inputDir = "/data/test/media/profile0_level10_I_128x96.h263";
vDecSample->outputYuvFlag = true;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder());
ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback());
ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoderFor263());
vDecSample->WaitForEOS();
cout << "outFrameCount" << vDecSample->outFrameCount << endl;
ASSERT_EQ(false, vDecSample->isonError);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0006
* @tc.name : Decode Cinepak buffer with invalid resolution below minimum
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0006, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->inputDir = INP_DIR_2;
vDecSample->outputYuvFlag = true;
OH_AVRange widthRange;
OH_AVRange heightRange;
getVideoSizeRange(&widthRange, &heightRange);
vDecSample->defaultWidth = widthRange.minVal - 1;
vDecSample->defaultHeight = heightRange.minVal - 1;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_INVALID_VAL, vDecSample->ConfigureVideoDecoder());
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0007
* @tc.name : Decode Cinepak buffer with invalid resolution above maximum
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0007, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->inputDir = INP_DIR_1;
vDecSample->outputYuvFlag = true;
OH_AVRange widthRange;
OH_AVRange heightRange;
getVideoSizeRange(&widthRange, &heightRange);
vDecSample->defaultWidth = widthRange.maxVal + 1;
vDecSample->defaultHeight = heightRange.maxVal + 1;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_INVALID_VAL, vDecSample->ConfigureVideoDecoder());
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0008
* @tc.name : Decode Cinepak buffer with extremely large resolution
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0008, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->inputDir = INP_DIR_1;
vDecSample->outputYuvFlag = true;
int32_t max = 2147483647;
vDecSample->defaultWidth = max;
vDecSample->defaultHeight = max;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_INVALID_VAL, vDecSample->ConfigureVideoDecoder());
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0011
* @tc.name : Decode Cinepak buffer with negative resolution
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0011, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->inputDir = INP_DIR_1;
vDecSample->outputYuvFlag = true;
vDecSample->defaultWidth = -1;
vDecSample->defaultHeight = -1;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_INVALID_VAL, vDecSample->ConfigureVideoDecoder());
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0012
* @tc.name : Decode Cinepak buffer with unsupported pixel format (-1)
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0012, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->inputDir = INP_DIR_1;
vDecSample->outputYuvFlag = true;
vDecSample->defaultPixelFormat = -1;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_UNSUPPORT, vDecSample->ConfigureVideoDecoder());
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0013
* @tc.name : Decode Cinepak buffer with unsupported pixel format (0)
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0013, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->inputDir = INP_DIR_1;
vDecSample->outputYuvFlag = true;
vDecSample->defaultPixelFormat = 0;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_UNSUPPORT, vDecSample->ConfigureVideoDecoder());
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0014
* @tc.name : Decode Cinepak buffer with supported pixel format (3)
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0014, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->inputDir = INP_DIR_1;
vDecSample->getFormat(INP_DIR_2);
vDecSample->outputYuvFlag = true;
vDecSample->defaultPixelFormat = 3;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder());
ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback());
ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoderReadStream());
vDecSample->WaitForEOS();
ASSERT_EQ(0, vDecSample->errCount);
ASSERT_EQ(FRAMESIZE20, vDecSample->outFrameCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0015
* @tc.name : Decode Cinepak buffer with unsupported pixel format (max int)
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0015, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->inputDir = INP_DIR_1;
vDecSample->outputYuvFlag = true;
int32_t max = 2147483647;
vDecSample->defaultPixelFormat = max;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_UNSUPPORT, vDecSample->ConfigureVideoDecoder());
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0017
* @tc.name : Decode Cinepak buffer with NV21 pixel format
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0017, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_2);
vDecSample->outputYuvFlag = true;
vDecSample->needCheckHash = true;
vDecSample->defaultWidth = 720;
vDecSample->defaultHeight = 480;
vDecSample->defaultFrameRate = 30;
vDecSample->defaultPixelFormat = AV_PIXEL_FORMAT_NV21;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder());
ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback());
ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder());
vDecSample->WaitForEOS();
ASSERT_EQ(0, vDecSample->errCount);
ASSERT_EQ(FRAMESIZE20, vDecSample->outFrameCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0018
* @tc.name : Decode Cinepak surface with NV12 pixel format
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0018, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_2);
vDecSample->sfOutput = true;
vDecSample->outputYuvSurface = true;
vDecSample->defaultPixelFormat = AV_PIXEL_FORMAT_NV12;
ASSERT_EQ(AV_ERR_OK, vDecSample->RunVideoDec_Surface(g_codecNameCinepak.c_str()));
vDecSample->WaitForEOS();
ASSERT_EQ(FRAMESIZE20, vDecSample->outFrameCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0019
* @tc.name : Decode Cinepak surface with NV21 pixel format
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0019, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_2);
vDecSample->sfOutput = true;
vDecSample->outputYuvSurface = true;
vDecSample->defaultPixelFormat = AV_PIXEL_FORMAT_NV21;
ASSERT_EQ(AV_ERR_OK, vDecSample->RunVideoDec_Surface(g_codecNameCinepak.c_str()));
vDecSample->WaitForEOS();
ASSERT_EQ(FRAMESIZE20, vDecSample->outFrameCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0020
* @tc.name : Surface model change in normal state
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0020, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_2);
vDecSample->sfOutput = true;
vDecSample->autoSwitchSurface = true;
vDecSample->afterEosDestroyCodec = false;
vDecSample->sleepOnFPS = true;
ASSERT_EQ(AV_ERR_OK, vDecSample->RunVideoDec_Surface(g_codecNameCinepak.c_str()));
vDecSample->WaitForEOS();
ASSERT_EQ(AV_ERR_OK, vDecSample->Reset());
ASSERT_EQ(AV_ERR_INVALID_STATE, vDecSample->SwitchSurface());
ASSERT_EQ(AV_ERR_OK, vDecSample->Release());
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0021
* @tc.name : Surface model change in flushed state
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0021, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_2);
vDecSample->sfOutput = true;
vDecSample->autoSwitchSurface = true;
vDecSample->sleepOnFPS = true;
ASSERT_EQ(AV_ERR_OK, vDecSample->RunVideoDec_Surface(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->Flush());
ASSERT_EQ(AV_ERR_OK, vDecSample->SwitchSurface());
ASSERT_EQ(AV_ERR_OK, vDecSample->Stop());
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0022
* @tc.name : Surface model change in running state
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0022, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_2);
vDecSample->sfOutput = false;
vDecSample->autoSwitchSurface = false;
vDecSample->CreateSurface();
ASSERT_EQ(AV_ERR_OK, vDecSample->RunVideoDec(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OPERATE_NOT_PERMIT, vDecSample->SwitchSurface());
vDecSample->WaitForEOS();
ASSERT_EQ(AV_ERR_OK, vDecSample->errCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0023
* @tc.name : Repeat call setSurface quickly
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0023, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_2);
vDecSample->sfOutput = true;
vDecSample->autoSwitchSurface = true;
vDecSample->sleepOnFPS = true;
ASSERT_EQ(AV_ERR_OK, vDecSample->RunVideoDec_Surface(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->SwitchSurface());
vDecSample->WaitForEOS();
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0024
* @tc.name : Surface model change in flush to running state
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0024, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_2);
vDecSample->sfOutput = true;
vDecSample->autoSwitchSurface = true;
vDecSample->afterEosDestroyCodec = false;
vDecSample->sleepOnFPS = true;
ASSERT_EQ(AV_ERR_OK, vDecSample->RunVideoDec_Surface(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->Flush());
ASSERT_EQ(AV_ERR_OK, vDecSample->Start());
ASSERT_EQ(AV_ERR_OK, vDecSample->SwitchSurface());
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0025
* @tc.name : Surface model change in decoder finish to End-of-Stream state
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0025, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_2);
vDecSample->sfOutput = true;
vDecSample->autoSwitchSurface = true;
vDecSample->afterEosDestroyCodec = false;
vDecSample->sleepOnFPS = true;
ASSERT_EQ(AV_ERR_OK, vDecSample->RunVideoDec_Surface(g_codecNameCinepak.c_str()));
vDecSample->WaitForEOS();
ASSERT_EQ(AV_ERR_OK, vDecSample->SwitchSurface());
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0026
* @tc.name : Buffer model change in decoder finish to End-of-Stream state
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0026, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_2);
vDecSample->sfOutput = false;
vDecSample->autoSwitchSurface = false;
vDecSample->CreateSurface();
ASSERT_EQ(AV_ERR_OK, vDecSample->RunVideoDec(g_codecNameCinepak.c_str()));
vDecSample->WaitForEOS();
ASSERT_EQ(AV_ERR_OPERATE_NOT_PERMIT, vDecSample->SwitchSurface());
ASSERT_EQ(AV_ERR_OK, vDecSample->errCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0027
* @tc.name : Buffer model change in running to flushed state
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0027, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_2);
vDecSample->sfOutput = false;
vDecSample->autoSwitchSurface = false;
vDecSample->CreateSurface();
ASSERT_EQ(AV_ERR_OK, vDecSample->RunVideoDec(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->Flush());
ASSERT_EQ(AV_ERR_OPERATE_NOT_PERMIT, vDecSample->SwitchSurface());
ASSERT_EQ(AV_ERR_OK, vDecSample->errCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0028
* @tc.name : Buffer model change in flushed to running state
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0028, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_2);
vDecSample->sfOutput = false;
vDecSample->autoSwitchSurface = false;
vDecSample->CreateSurface();
ASSERT_EQ(AV_ERR_OK, vDecSample->RunVideoDec(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->Flush());
ASSERT_EQ(AV_ERR_OK, vDecSample->Start());
ASSERT_EQ(AV_ERR_OPERATE_NOT_PERMIT, vDecSample->SwitchSurface());
ASSERT_EQ(AV_ERR_OK, vDecSample->errCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0029
* @tc.name : Buffer model change in normal state
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0029, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->sfOutput = false;
vDecSample->autoSwitchSurface = false;
vDecSample->CreateSurface();
vDecSample->sfOutput = false;
vDecSample->autoSwitchSurface = false;
vDecSample->CreateSurface();
vDecSample->getFormat(INP_DIR_2);
ASSERT_EQ(AV_ERR_OK, vDecSample->RunVideoDec(g_codecNameCinepak.c_str()));
vDecSample->WaitForEOS();
ASSERT_EQ(AV_ERR_OK, vDecSample->Reset());
ASSERT_EQ(AV_ERR_INVALID_STATE, vDecSample->SwitchSurface());
ASSERT_EQ(AV_ERR_OK, vDecSample->Release());
ASSERT_EQ(AV_ERR_OK, vDecSample->errCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0030
* @tc.name : Surface model change in config state
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0030, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_2);
vDecSample->sfOutput = false;
vDecSample->autoSwitchSurface = false;
vDecSample->CreateSurface();
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder());
ASSERT_EQ(AV_ERR_OK, vDecSample->SwitchSurface());
vDecSample->WaitForEOS();
ASSERT_EQ(AV_ERR_OK, vDecSample->errCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0031
* @tc.name : Surface model change in create state
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0031, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->inputDir = INP_DIR_1;
vDecSample->getFormat(INP_DIR_2);
vDecSample->sfOutput = false;
vDecSample->autoSwitchSurface = false;
vDecSample->CreateSurface();
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));;
ASSERT_EQ(AV_ERR_INVALID_STATE, vDecSample->SwitchSurface());
vDecSample->WaitForEOS();
ASSERT_EQ(AV_ERR_OK, vDecSample->errCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0032
* @tc.name : Two object repeat call setSurface quickly
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0032, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_2);
vDecSample->sfOutput = true;
vDecSample->autoSwitchSurface = true;
vDecSample->sleepOnFPS = true;
ASSERT_EQ(AV_ERR_OK, vDecSample->RunVideoDec_Surface(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->SwitchSurface());
vDecSample->WaitForEOS();
vDecSample->ReleaseInFile();
auto vDecSample_1 = make_shared<VDecAPI11Sample>();
vDecSample_1->getFormat(INP_DIR_2);
vDecSample_1->sfOutput = true;
vDecSample_1->autoSwitchSurface = true;
vDecSample_1->sleepOnFPS = true;
ASSERT_EQ(AV_ERR_OK, vDecSample_1->RunVideoDec_Surface(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample_1->SwitchSurface());
vDecSample_1->WaitForEOS();
vDecSample_1->ReleaseInFile();
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0033
* @tc.name : Repeat call setSurface quickly 2 times
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0033, TestSize.Level0)
{
for (int i = 0; i < 2; i++) {
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_2);
vDecSample->sfOutput = true;
vDecSample->autoSwitchSurface = true;
vDecSample->sleepOnFPS = true;
ASSERT_EQ(AV_ERR_OK, vDecSample->RunVideoDec_Surface(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->RepeatCallSetSurface());
vDecSample->WaitForEOS();
vDecSample->ReleaseInFile();
}
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0034
* @tc.name : Decode cinepak buffer with demuxer mov format
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0034, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_3);
vDecSample->outputYuvFlag = true;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder());
ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback());
ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder());
vDecSample->WaitForEOS();
ASSERT_EQ(0, vDecSample->errCount);
ASSERT_EQ(FRAMESIZE20, vDecSample->outFrameCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0035
* @tc.name : Decode cinepak buffer with demuxer mp4 format
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0035, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_4);
vDecSample->outputYuvFlag = true;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder());
ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback());
ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder());
vDecSample->WaitForEOS();
ASSERT_EQ(0, vDecSample->errCount);
ASSERT_EQ(FRAMESIZE20, vDecSample->outFrameCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0036
* @tc.name : Decode cinepak buffer with demuxer avi format
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0036, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_5);
vDecSample->outputYuvFlag = true;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder());
ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback());
ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder());
vDecSample->WaitForEOS();
ASSERT_EQ(0, vDecSample->errCount);
ASSERT_EQ(FRAMESIZE20, vDecSample->outFrameCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0038
* @tc.name : Decode Cinepak buffer and encode to H.264
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0038, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->inputDir = INP_DIR_1;
vDecSample->getFormat(INP_DIR_2);
vDecSample->outputYuvFlag = true;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder());
ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback());
ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoderReadStream());
vDecSample->WaitForEOS();
ASSERT_EQ(0, vDecSample->errCount);
ASSERT_EQ(FRAMESIZE20, vDecSample->outFrameCount);
auto vEncSample = make_unique<VEncNdkSample>();
vEncSample->inputDir = vDecSample->outputDir;
vEncSample->defaultWidth = 720;
vEncSample->defaultHeight = 480;
vEncSample->defaultFrameRate = 30;
ASSERT_EQ(AV_ERR_OK, vEncSample->CreateVideoEncoder(g_codecName));
ASSERT_EQ(AV_ERR_OK, vEncSample->SetVideoEncoderCallback());
ASSERT_EQ(AV_ERR_OK, vEncSample->ConfigureVideoEncoder());
ASSERT_EQ(AV_ERR_OK, vEncSample->StartVideoEncoder());
vEncSample->WaitForEOS();
ASSERT_EQ(AV_ERR_OK, vEncSample->errCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0047
* @tc.name : Cinepak synchronous software decoding with NV12 output
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0047, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->inputDir = INP_DIR_1;
vDecSample->getFormat(INP_DIR_2);
vDecSample->enbleSyncMode = 1;
vDecSample->defaultPixelFormat = AV_PIXEL_FORMAT_NV12;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder());
ASSERT_EQ(AV_ERR_OK, vDecSample->StartSyncVideoDecoder());
vDecSample->WaitForEOS();
ASSERT_EQ(0, vDecSample->errCount);
ASSERT_EQ(FRAMESIZE20, vDecSample->outFrameCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0048
* @tc.name : Cinepak synchronous software decoding with NV21 output
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0048, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->inputDir = INP_DIR_1;
vDecSample->getFormat(INP_DIR_2);
vDecSample->enbleSyncMode = 1;
vDecSample->defaultPixelFormat = AV_PIXEL_FORMAT_NV21;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder());
ASSERT_EQ(AV_ERR_OK, vDecSample->StartSyncVideoDecoder());
vDecSample->WaitForEOS();
ASSERT_EQ(0, vDecSample->errCount);
ASSERT_EQ(FRAMESIZE20, vDecSample->outFrameCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0049
* @tc.name : Cinepak synchronous software decoding with surface output
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0049, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->inputDir = INP_DIR_1;
vDecSample->getFormat(INP_DIR_2);
vDecSample->sfOutput = true;
vDecSample->enbleSyncMode = 1;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder());
ASSERT_EQ(AV_ERR_OK, vDecSample->DecodeSetSurface());
ASSERT_EQ(AV_ERR_OK, vDecSample->StartSyncVideoDecoder());
vDecSample->WaitForEOS();
ASSERT_EQ(FRAMESIZE20, vDecSample->outFrameCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0050
* @tc.name : Decode Cinepak buffer No PixelFormat
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0050, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_2);
vDecSample->outputYuvFlag = true;
vDecSample->needCheckHash = true;
vDecSample->defaultWidth = 720;
vDecSample->defaultHeight = 480;
vDecSample->defaultFrameRate = 30;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoderNoPixelFormat());
ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback());
ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder());
vDecSample->WaitForEOS();
ASSERT_EQ(0, vDecSample->errCount);
ASSERT_EQ(FRAMESIZE20, vDecSample->outFrameCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0051
* @tc.name : Decode cinepak buffer with demuxer mkv format
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0051, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_2);
vDecSample->outputYuvFlag = true;
vDecSample->needCheckHash = true;
vDecSample->defaultWidth = 720;
vDecSample->defaultHeight = 480;
vDecSample->defaultFrameRate = 30;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder());
ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback());
ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder());
vDecSample->WaitForEOS();
ASSERT_EQ(0, vDecSample->errCount);
ASSERT_EQ(FRAMESIZE20, vDecSample->outFrameCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0052
* @tc.name : Decode cinepak buffer with 4x4
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0052, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_6);
vDecSample->outputYuvFlag = true;
vDecSample->defaultWidth = 4;
vDecSample->defaultHeight = 4;
vDecSample->defaultFrameRate = 30;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder());
ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback());
ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder());
vDecSample->WaitForEOS();
ASSERT_EQ(0, vDecSample->errCount);
ASSERT_EQ(FRAMESIZE20, vDecSample->outFrameCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0053
* @tc.name : Decode cinepak buffer with 480x640
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0053, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_7);
vDecSample->outputYuvFlag = true;
vDecSample->defaultWidth = 480;
vDecSample->defaultHeight = 640;
vDecSample->defaultFrameRate = 30;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder());
ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback());
ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder());
vDecSample->WaitForEOS();
ASSERT_EQ(0, vDecSample->errCount);
ASSERT_EQ(FRAMESIZE20, vDecSample->outFrameCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0054
* @tc.name : Decode cinepak buffer with 600x800
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0054, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_8);
vDecSample->outputYuvFlag = true;
vDecSample->defaultWidth = 600;
vDecSample->defaultHeight = 800;
vDecSample->defaultFrameRate = 30;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder());
ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback());
ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder());
vDecSample->WaitForEOS();
ASSERT_EQ(0, vDecSample->errCount);
ASSERT_EQ(FRAMESIZE20, vDecSample->outFrameCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0055
* @tc.name : Decode cinepak buffer with 720x480
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0055, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_9);
vDecSample->outputYuvFlag = true;
vDecSample->defaultWidth = 720;
vDecSample->defaultHeight = 480;
vDecSample->defaultFrameRate = 25;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder());
ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback());
ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder());
vDecSample->WaitForEOS();
ASSERT_EQ(0, vDecSample->errCount);
ASSERT_EQ(FRAMESIZE5, vDecSample->outFrameCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0056
* @tc.name : Decode cinepak buffer with 1080x1920
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0056, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_10);
vDecSample->outputYuvFlag = true;
vDecSample->defaultWidth = 1080;
vDecSample->defaultHeight = 1920;
vDecSample->defaultFrameRate = 30;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder());
ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback());
ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder());
vDecSample->WaitForEOS();
ASSERT_EQ(0, vDecSample->errCount);
ASSERT_EQ(FRAMESIZE5, vDecSample->outFrameCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0057
* @tc.name : Decode cinepak buffer with 1280x720
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0057, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_11);
vDecSample->outputYuvFlag = true;
vDecSample->defaultWidth = 1280;
vDecSample->defaultHeight = 720;
vDecSample->defaultFrameRate = 30;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder());
ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback());
ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder());
vDecSample->WaitForEOS();
ASSERT_EQ(0, vDecSample->errCount);
ASSERT_EQ(FRAMESIZE20, vDecSample->outFrameCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0058
* @tc.name : Decode cinepak buffer with 1920x1080
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0058, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
vDecSample->getFormat(INP_DIR_12);
vDecSample->outputYuvFlag = true;
vDecSample->defaultWidth = 1920;
vDecSample->defaultHeight = 1080;
vDecSample->defaultFrameRate = 30;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder());
ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback());
ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder());
vDecSample->WaitForEOS();
ASSERT_EQ(0, vDecSample->errCount);
ASSERT_EQ(FRAMESIZE5, vDecSample->outFrameCount);
}
* @tc.number : VIDEO_CINEPAKDEC_FUNCTION_0063
* @tc.name : graph pixel format
* @tc.desc : function test
*/
HWTEST_F(CinepakdecFuncNdkTest, VIDEO_CINEPAKDEC_FUNCTION_0063, TestSize.Level0)
{
auto vDecSample = make_shared<VDecAPI11Sample>();
int32_t pixfmt[4] = {28, 24, 25, 12};
vDecSample->getFormat(INP_DIR_12);
vDecSample->outputYuvFlag = true;
vDecSample->defaultWidth = 1920;
vDecSample->defaultHeight = 1080;
vDecSample->defaultFrameRate = 30;
vDecSample->isGetVideoSupportedPixelFormats = true;
vDecSample->isGetFormatKey = true;
vDecSample->avcodecMimeType = OH_AVCODEC_MIMETYPE_VIDEO_CINEPAK;
vDecSample->isEncoder = false;
ASSERT_EQ(AV_ERR_OK, vDecSample->CreateVideoDecoder(g_codecNameCinepak.c_str()));
ASSERT_EQ(AV_ERR_OK, vDecSample->ConfigureVideoDecoder());
ASSERT_EQ(AV_ERR_OK, vDecSample->SetVideoDecoderCallback());
ASSERT_EQ(AV_ERR_OK, vDecSample->StartVideoDecoder());
vDecSample->WaitForEOS();
ASSERT_EQ(0, vDecSample->errCount);
ASSERT_EQ(4, vDecSample->pixelFormatNum);
for (int i = 0; i < vDecSample->pixelFormatNum; i++) {
ASSERT_EQ(vDecSample->pixelFormats[i], pixfmt[i]);
}
ASSERT_EQ(FRAMESIZE5, vDecSample->outFrameCount);
}
}
