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|
/* qsv_common.c
*
* Copyright (c) 2003-2013 HandBrake Team
* This file is part of the HandBrake source code.
* Homepage: <http://handbrake.fr/>.
* It may be used under the terms of the GNU General Public License v2.
* For full terms see the file COPYING file or visit http://www.gnu.org/licenses/gpl-2.0.html
*/
#ifdef USE_QSV
#include "hb.h"
#include "ports.h"
#include "common.h"
#include "hb_dict.h"
#include "qsv_common.h"
#include "h264_common.h"
// for x264_vidformat_names etc.
#include "x264.h"
// avoids a warning
#include "libavutil/cpu.h"
extern void ff_cpu_cpuid(int index, int *eax, int *ebx, int *ecx, int *edx);
// make the Intel QSV information available to the UIs
hb_qsv_info_t *hb_qsv_info = NULL;
// availability and versions
static mfxIMPL preferred_implementation;
static mfxVersion qsv_hardware_version;
static mfxVersion qsv_software_version;
static mfxVersion qsv_minimum_version;
static int qsv_hardware_available = 0;
static int qsv_software_available = 0;
// check available Intel Media SDK version against a minimum
#define HB_CHECK_MFX_VERSION(MFX_VERSION, MAJOR, MINOR) \
(MFX_VERSION.Major == MAJOR && MFX_VERSION.Minor >= MINOR)
int hb_qsv_available()
{
return hb_qsv_info != NULL && (qsv_hardware_available ||
qsv_software_available);
}
int hb_qsv_info_init()
{
static int init_done = 0;
if (init_done)
return (hb_qsv_info == NULL);
init_done = 1;
hb_qsv_info = calloc(1, sizeof(*hb_qsv_info));
if (hb_qsv_info == NULL)
{
hb_error("hb_qsv_info_init: alloc failure");
return -1;
}
mfxSession session;
qsv_minimum_version.Major = HB_QSV_MINVERSION_MAJOR;
qsv_minimum_version.Minor = HB_QSV_MINVERSION_MINOR;
// check for software fallback
if (MFXInit(MFX_IMPL_SOFTWARE,
&qsv_minimum_version, &session) == MFX_ERR_NONE)
{
qsv_software_available = 1;
preferred_implementation = MFX_IMPL_SOFTWARE;
// our minimum is supported, but query the actual version
MFXQueryVersion(session, &qsv_software_version);
MFXClose(session);
}
// check for actual hardware support
if (MFXInit(MFX_IMPL_HARDWARE_ANY|MFX_IMPL_VIA_ANY,
&qsv_minimum_version, &session) == MFX_ERR_NONE)
{
qsv_hardware_available = 1;
preferred_implementation = MFX_IMPL_HARDWARE_ANY|MFX_IMPL_VIA_ANY;
// our minimum is supported, but query the actual version
MFXQueryVersion(session, &qsv_hardware_version);
MFXClose(session);
}
// check for version-specific or hardware-specific capabilities
// we only use software as a fallback, so check hardware first
if (qsv_hardware_available)
{
if (HB_CHECK_MFX_VERSION(qsv_hardware_version, 1, 6))
{
hb_qsv_info->capabilities |= HB_QSV_CAP_MSDK_API_1_6;
hb_qsv_info->capabilities |= HB_QSV_CAP_OPTION2_EXTBRC;
}
if (HB_CHECK_MFX_VERSION(qsv_hardware_version, 1, 7))
{
// we should really check the driver version, but since that's not
// available here, checking the API version is the best we can do :-(
hb_qsv_info->capabilities |= HB_QSV_CAP_CORE_COPYFRAME;
}
if (hb_get_cpu_platform() == HB_CPU_PLATFORM_INTEL_HSW)
{
if (HB_CHECK_MFX_VERSION(qsv_hardware_version, 1, 6))
{
hb_qsv_info->capabilities |= HB_QSV_CAP_OPTION2_MBBRC;
}
if (HB_CHECK_MFX_VERSION(qsv_hardware_version, 1, 7))
{
hb_qsv_info->capabilities |= HB_QSV_CAP_OPTION2_TRELLIS;
hb_qsv_info->capabilities |= HB_QSV_CAP_OPTION2_LOOKAHEAD;
}
hb_qsv_info->capabilities |= HB_QSV_CAP_H264_BPYRAMID;
}
}
else if (qsv_software_available)
{
if (HB_CHECK_MFX_VERSION(qsv_software_version, 1, 6))
{
hb_qsv_info->capabilities |= HB_QSV_CAP_MSDK_API_1_6;
hb_qsv_info->capabilities |= HB_QSV_CAP_H264_BPYRAMID;
}
hb_qsv_info->capabilities |= HB_QSV_CAP_CORE_COPYFRAME;
}
// note: we pass a pointer to MFXInit but it never gets modified
// let's make sure of it just to be safe though
if (qsv_minimum_version.Major != HB_QSV_MINVERSION_MAJOR ||
qsv_minimum_version.Minor != HB_QSV_MINVERSION_MINOR)
{
hb_error("hb_qsv_info_init: minimum version (%d.%d) was modified",
qsv_minimum_version.Major,
qsv_minimum_version.Minor);
}
// success
return 0;
}
// we don't need it beyond this point
#undef HB_CHECK_MFX_VERSION
void hb_qsv_info_print()
{
if (hb_qsv_info == NULL)
{
hb_error("hb_qsv_info_print: QSV info not initialized!");
}
// is QSV available?
hb_log("Intel Quick Sync Video support: %s",
hb_qsv_available() ? "yes": "no");
// if we have Quick Sync Video support, also print the details
if (hb_qsv_available())
{
if (qsv_hardware_available)
{
hb_log(" - Intel Media SDK hardware: API %d.%d (minimum: %d.%d)",
qsv_hardware_version.Major,
qsv_hardware_version.Minor,
qsv_minimum_version.Major,
qsv_minimum_version.Minor);
}
if (qsv_software_available)
{
hb_log(" - Intel Media SDK software: API %d.%d (minimum: %d.%d)",
qsv_software_version.Major,
qsv_software_version.Minor,
qsv_minimum_version.Major,
qsv_minimum_version.Minor);
}
hb_log(" - Preferred implementation: %s",
hb_qsv_impl_get_name(preferred_implementation));
}
}
const char* hb_qsv_decode_get_codec_name(enum AVCodecID codec_id)
{
switch (codec_id)
{
case AV_CODEC_ID_H264:
return "h264_qsv";
default:
return NULL;
}
}
int hb_qsv_decode_is_enabled(hb_job_t *job)
{
return ((job != NULL && job->qsv.decode) &&
(job->vcodec & HB_VCODEC_QSV_MASK) &&
(job->title->video_decode_support & HB_DECODE_SUPPORT_QSV));
}
int hb_qsv_codingoption_xlat(int val)
{
switch (HB_QSV_CLIP3(-1, 2, val))
{
case 0:
return MFX_CODINGOPTION_OFF;
case 1:
case 2: // MFX_CODINGOPTION_ADAPTIVE, reserved
return MFX_CODINGOPTION_ON;
case -1:
default:
return MFX_CODINGOPTION_UNKNOWN;
}
}
int hb_qsv_trellisvalue_xlat(int val)
{
switch (HB_QSV_CLIP3(0, 3, val))
{
case 0:
return MFX_TRELLIS_OFF;
case 1: // I-frames only
return MFX_TRELLIS_I;
case 2: // I- and P-frames
return MFX_TRELLIS_I|MFX_TRELLIS_P;
case 3: // all frames
return MFX_TRELLIS_I|MFX_TRELLIS_P|MFX_TRELLIS_B;
default:
return MFX_TRELLIS_UNKNOWN;
}
}
const char* hb_qsv_codingoption_get_name(int val)
{
switch (val)
{
case MFX_CODINGOPTION_ON:
return "on";
case MFX_CODINGOPTION_OFF:
return "off";
case MFX_CODINGOPTION_ADAPTIVE:
return "adaptive";
case MFX_CODINGOPTION_UNKNOWN:
return "unknown (auto)";
default:
return NULL;
}
}
int hb_qsv_atoindex(const char* const *arr, const char *str, int *err)
{
int i;
for (i = 0; arr[i] != NULL; i++)
{
if (!strcasecmp(arr[i], str))
{
break;
}
}
*err = (arr[i] == NULL);
return i;
}
// adapted from libx264
int hb_qsv_atobool(const char *str, int *err)
{
if (!strcasecmp(str, "1") ||
!strcasecmp(str, "yes") ||
!strcasecmp(str, "true"))
{
return 1;
}
if (!strcasecmp(str, "0") ||
!strcasecmp(str, "no") ||
!strcasecmp(str, "false"))
{
return 0;
}
*err = 1;
return 0;
}
// adapted from libx264
int hb_qsv_atoi(const char *str, int *err)
{
char *end;
int v = strtol(str, &end, 0);
if (end == str || end[0] != '\0')
{
*err = 1;
}
return v;
}
// adapted from libx264
float hb_qsv_atof(const char *str, int *err)
{
char *end;
float v = strtod(str, &end);
if (end == str || end[0] != '\0')
{
*err = 1;
}
return v;
}
int hb_qsv_param_parse(hb_qsv_param_t *param,
const char *key, const char *value, int vcodec)
{
float fvalue;
int ivalue, error = 0;
if (param == NULL)
{
return HB_QSV_PARAM_ERROR;
}
if (value == NULL || value[0] == '\0')
{
value = "true";
}
else if (value[0] == '=')
{
value++;
}
if (key == NULL || key[0] == '\0')
{
return HB_QSV_PARAM_BAD_NAME;
}
else if (!strncasecmp(key, "no-", 3))
{
key += 3;
value = hb_qsv_atobool(value, &error) ? "false" : "true";
if (error)
{
return HB_QSV_PARAM_BAD_VALUE;
}
}
if (!strcasecmp(key, "target-usage") ||
!strcasecmp(key, "tu"))
{
ivalue = hb_qsv_atoi(value, &error);
if (!error)
{
param->videoParam->mfx.TargetUsage = HB_QSV_CLIP3(MFX_TARGETUSAGE_1,
MFX_TARGETUSAGE_7,
ivalue);
}
}
else if (!strcasecmp(key, "num-ref-frame") ||
!strcasecmp(key, "ref"))
{
ivalue = hb_qsv_atoi(value, &error);
if (!error)
{
param->videoParam->mfx.NumRefFrame = HB_QSV_CLIP3(0, 16, ivalue);
}
}
else if (!strcasecmp(key, "gop-ref-dist"))
{
ivalue = hb_qsv_atoi(value, &error);
if (!error)
{
param->videoParam->mfx.GopRefDist = HB_QSV_CLIP3(0, 32, ivalue);
}
}
else if (!strcasecmp(key, "gop-pic-size") ||
!strcasecmp(key, "keyint"))
{
ivalue = hb_qsv_atoi(value, &error);
if (!error)
{
param->gop.gop_pic_size = HB_QSV_CLIP3(-1, UINT16_MAX, ivalue);
}
}
else if (!strcasecmp(key, "b-pyramid"))
{
if (hb_qsv_info->capabilities & HB_QSV_CAP_H264_BPYRAMID)
{
switch (vcodec)
{
case HB_VCODEC_QSV_H264:
ivalue = hb_qsv_atobool(value, &error);
break;
default:
return HB_QSV_PARAM_UNSUPPORTED;
}
if (!error)
{
param->gop.b_pyramid = ivalue;
}
}
else
{
return HB_QSV_PARAM_UNSUPPORTED;
}
}
else if (!strcasecmp(key, "scenecut"))
{
ivalue = hb_qsv_atobool(value, &error);
if (!error)
{
if (!ivalue)
{
param->videoParam->mfx.GopOptFlag |= MFX_GOP_STRICT;
}
else
{
param->videoParam->mfx.GopOptFlag &= ~MFX_GOP_STRICT;
}
}
}
else if (!strcasecmp(key, "cqp-offset-i"))
{
ivalue = hb_qsv_atoi(value, &error);
if (!error)
{
param->rc.cqp_offsets[0] = HB_QSV_CLIP3(INT16_MIN, INT16_MAX, ivalue);
}
}
else if (!strcasecmp(key, "cqp-offset-p"))
{
ivalue = hb_qsv_atoi(value, &error);
if (!error)
{
param->rc.cqp_offsets[1] = HB_QSV_CLIP3(INT16_MIN, INT16_MAX, ivalue);
}
}
else if (!strcasecmp(key, "cqp-offset-b"))
{
ivalue = hb_qsv_atoi(value, &error);
if (!error)
{
param->rc.cqp_offsets[2] = HB_QSV_CLIP3(INT16_MIN, INT16_MAX, ivalue);
}
}
else if (!strcasecmp(key, "vbv-init"))
{
fvalue = hb_qsv_atof(value, &error);
if (!error)
{
param->rc.vbv_buffer_init = HB_QSV_CLIP3(0, UINT16_MAX, fvalue);
}
}
else if (!strcasecmp(key, "vbv-bufsize"))
{
ivalue = hb_qsv_atoi(value, &error);
if (!error)
{
param->rc.vbv_buffer_size = HB_QSV_CLIP3(0, UINT16_MAX, ivalue);
}
}
else if (!strcasecmp(key, "vbv-maxrate"))
{
ivalue = hb_qsv_atoi(value, &error);
if (!error)
{
param->rc.vbv_max_bitrate = HB_QSV_CLIP3(0, UINT16_MAX, ivalue);
}
}
else if (!strcasecmp(key, "cavlc") || !strcasecmp(key, "cabac"))
{
switch (vcodec)
{
case HB_VCODEC_QSV_H264:
ivalue = hb_qsv_atobool(value, &error);
break;
default:
return HB_QSV_PARAM_UNSUPPORTED;
}
if (!error)
{
if (!strcasecmp(key, "cabac"))
{
ivalue = !ivalue;
}
param->codingOption.CAVLC = hb_qsv_codingoption_xlat(ivalue);
}
}
else if (!strcasecmp(key, "videoformat"))
{
switch (vcodec)
{
case HB_VCODEC_QSV_H264:
ivalue = hb_qsv_atoindex(x264_vidformat_names, value, &error);
break;
default:
return HB_QSV_PARAM_UNSUPPORTED;
}
if (!error)
{
param->videoSignalInfo.VideoFormat = ivalue;
}
}
else if (!strcasecmp(key, "fullrange"))
{
switch (vcodec)
{
case HB_VCODEC_QSV_H264:
ivalue = hb_qsv_atoindex(x264_fullrange_names, value, &error);
break;
default:
return HB_QSV_PARAM_UNSUPPORTED;
}
if (!error)
{
param->videoSignalInfo.VideoFullRange = ivalue;
}
}
else if (!strcasecmp(key, "colorprim"))
{
switch (vcodec)
{
case HB_VCODEC_QSV_H264:
ivalue = hb_qsv_atoindex(x264_colorprim_names, value, &error);
break;
default:
return HB_QSV_PARAM_UNSUPPORTED;
}
if (!error)
{
param->videoSignalInfo.ColourDescriptionPresent = 1;
param->videoSignalInfo.ColourPrimaries = ivalue;
}
}
else if (!strcasecmp(key, "transfer"))
{
switch (vcodec)
{
case HB_VCODEC_QSV_H264:
ivalue = hb_qsv_atoindex(x264_transfer_names, value, &error);
break;
default:
return HB_QSV_PARAM_UNSUPPORTED;
}
if (!error)
{
param->videoSignalInfo.ColourDescriptionPresent = 1;
param->videoSignalInfo.TransferCharacteristics = ivalue;
}
}
else if (!strcasecmp(key, "colormatrix"))
{
switch (vcodec)
{
case HB_VCODEC_QSV_H264:
ivalue = hb_qsv_atoindex(x264_colmatrix_names, value, &error);
break;
default:
return HB_QSV_PARAM_UNSUPPORTED;
}
if (!error)
{
param->videoSignalInfo.ColourDescriptionPresent = 1;
param->videoSignalInfo.MatrixCoefficients = ivalue;
}
}
else if (!strcasecmp(key, "tff") ||
!strcasecmp(key, "interlaced"))
{
switch (vcodec)
{
case HB_VCODEC_QSV_H264:
ivalue = hb_qsv_atobool(value, &error);
break;
default:
return HB_QSV_PARAM_UNSUPPORTED;
}
if (!error)
{
param->videoParam->mfx.FrameInfo.PicStruct = (ivalue ?
MFX_PICSTRUCT_FIELD_TFF :
MFX_PICSTRUCT_PROGRESSIVE);
}
}
else if (!strcasecmp(key, "bff"))
{
switch (vcodec)
{
case HB_VCODEC_QSV_H264:
ivalue = hb_qsv_atobool(value, &error);
break;
default:
return HB_QSV_PARAM_UNSUPPORTED;
}
if (!error)
{
param->videoParam->mfx.FrameInfo.PicStruct = (ivalue ?
MFX_PICSTRUCT_FIELD_BFF :
MFX_PICSTRUCT_PROGRESSIVE);
}
}
else if (!strcasecmp(key, "mbbrc"))
{
if (hb_qsv_info->capabilities & HB_QSV_CAP_OPTION2_MBBRC)
{
ivalue = hb_qsv_atobool(value, &error);
if (!error)
{
param->codingOption2.MBBRC = hb_qsv_codingoption_xlat(ivalue);
}
}
else
{
return HB_QSV_PARAM_UNSUPPORTED;
}
}
else if (!strcasecmp(key, "extbrc"))
{
if (hb_qsv_info->capabilities & HB_QSV_CAP_OPTION2_EXTBRC)
{
ivalue = hb_qsv_atobool(value, &error);
if (!error)
{
param->codingOption2.ExtBRC = hb_qsv_codingoption_xlat(ivalue);
}
}
else
{
return HB_QSV_PARAM_UNSUPPORTED;
}
}
else if (!strcasecmp(key, "lookahead") ||
!strcasecmp(key, "la"))
{
switch (vcodec)
{
case HB_VCODEC_QSV_H264:
ivalue = hb_qsv_atobool(value, &error);
break;
default:
return HB_QSV_PARAM_UNSUPPORTED;
}
if (hb_qsv_info->capabilities & HB_QSV_CAP_OPTION2_LOOKAHEAD)
{
if (!error)
{
param->rc.lookahead = ivalue;
}
}
else
{
return HB_QSV_PARAM_UNSUPPORTED;
}
}
else if (!strcasecmp(key, "lookahead-depth") ||
!strcasecmp(key, "la-depth"))
{
switch (vcodec)
{
case HB_VCODEC_QSV_H264:
ivalue = hb_qsv_atoi(value, &error);
break;
default:
return HB_QSV_PARAM_UNSUPPORTED;
}
if (hb_qsv_info->capabilities & HB_QSV_CAP_OPTION2_LOOKAHEAD)
{
if (!error)
{
// LookAheadDepth 10 will cause a hang with some driver versions
param->codingOption2.LookAheadDepth = HB_QSV_CLIP3(11, 100,
ivalue);
}
}
else
{
return HB_QSV_PARAM_UNSUPPORTED;
}
}
else if (!strcasecmp(key, "trellis"))
{
switch (vcodec)
{
case HB_VCODEC_QSV_H264:
ivalue = hb_qsv_atoi(value, &error);
break;
default:
return HB_QSV_PARAM_UNSUPPORTED;
}
if (hb_qsv_info->capabilities & HB_QSV_CAP_OPTION2_TRELLIS)
{
if (!error)
{
param->codingOption2.Trellis = hb_qsv_trellisvalue_xlat(ivalue);
}
}
else
{
return HB_QSV_PARAM_UNSUPPORTED;
}
}
else
{
/*
* TODO:
* - slice count control
* - open-gop
* - fake-interlaced (mfxExtCodingOption.FramePicture???)
* - intra-refresh
*/
return HB_QSV_PARAM_BAD_NAME;
}
return error ? HB_QSV_PARAM_BAD_VALUE : HB_QSV_PARAM_OK;
}
const char* const* hb_qsv_preset_get_names()
{
if (hb_get_cpu_platform() >= HB_CPU_PLATFORM_INTEL_HSW)
{
return hb_qsv_preset_names2;
}
else
{
return hb_qsv_preset_names1;
}
}
#ifdef HB_API_OLD_PRESET_GETTERS
const char* const* hb_qsv_presets()
{
return hb_qsv_preset_get_names();
}
#endif
int hb_qsv_param_default_preset(hb_qsv_param_t *param,
mfxVideoParam *videoParam, const char *preset)
{
if (param != NULL && videoParam != NULL)
{
int ret = hb_qsv_param_default(param, videoParam);
if (ret)
{
return ret;
}
}
else
{
hb_error("hb_qsv_param_default_preset: invalid pointer(s)");
return -1;
}
if (preset != NULL && preset[0] != '\0')
{
if (!strcasecmp(preset, "quality"))
{
/*
* Haswell or later: default settings.
* Before Haswell: preset unavailable.
*/
}
else if (!strcasecmp(preset, "balanced"))
{
/*
* Haswell or later: adjust settings.
*
* The idea behind this is that we should try and get a performance
* match between platforms (so using the "balanced" preset would
* give you similar encoding speeds on Ivy Bridge and Haswell).
*
* FIXME: figure out whether this actually is a good idea.
*/
if (hb_get_cpu_platform() >= HB_CPU_PLATFORM_INTEL_HSW)
{
param->rc.lookahead = 0;
param->videoParam->mfx.GopRefDist = 1;
param->videoParam->mfx.TargetUsage = MFX_TARGETUSAGE_4;
}
else
{
/* Before Haswell: default settings */
}
}
else if (!strcasecmp(preset, "speed"))
{
if (hb_get_cpu_platform() >= HB_CPU_PLATFORM_INTEL_HSW)
{
param->rc.lookahead = 0;
param->videoParam->mfx.GopRefDist = 1;
param->videoParam->mfx.TargetUsage = MFX_TARGETUSAGE_6;
}
else
{
param->videoParam->mfx.TargetUsage = MFX_TARGETUSAGE_4;
}
}
else
{
hb_error("hb_qsv_param_default_preset: invalid preset '%s'", preset);
return -1;
}
}
return 0;
}
int hb_qsv_param_default(hb_qsv_param_t *param, mfxVideoParam *videoParam)
{
if (param != NULL && videoParam != NULL)
{
// introduced in API 1.0
memset(¶m->codingOption, 0, sizeof(mfxExtCodingOption));
param->codingOption.Header.BufferId = MFX_EXTBUFF_CODING_OPTION;
param->codingOption.Header.BufferSz = sizeof(mfxExtCodingOption);
param->codingOption.MECostType = 0; // reserved, must be 0
param->codingOption.MESearchType = 0; // reserved, must be 0
param->codingOption.MVSearchWindow.x = 0; // reserved, must be 0
param->codingOption.MVSearchWindow.y = 0; // reserved, must be 0
param->codingOption.RefPicListReordering = 0; // reserved, must be 0
param->codingOption.IntraPredBlockSize = 0; // reserved, must be 0
param->codingOption.InterPredBlockSize = 0; // reserved, must be 0
param->codingOption.MVPrecision = 0; // reserved, must be 0
param->codingOption.EndOfSequence = MFX_CODINGOPTION_UNKNOWN;
param->codingOption.RateDistortionOpt = MFX_CODINGOPTION_UNKNOWN;
param->codingOption.ResetRefList = MFX_CODINGOPTION_UNKNOWN;
param->codingOption.MaxDecFrameBuffering = 0; // unspecified
param->codingOption.AUDelimiter = MFX_CODINGOPTION_OFF;
param->codingOption.SingleSeiNalUnit = MFX_CODINGOPTION_UNKNOWN;
param->codingOption.PicTimingSEI = MFX_CODINGOPTION_OFF;
param->codingOption.VuiNalHrdParameters = MFX_CODINGOPTION_UNKNOWN;
param->codingOption.FramePicture = MFX_CODINGOPTION_UNKNOWN;
param->codingOption.CAVLC = MFX_CODINGOPTION_OFF;
// introduced in API 1.3
param->codingOption.RefPicMarkRep = MFX_CODINGOPTION_UNKNOWN;
param->codingOption.FieldOutput = MFX_CODINGOPTION_UNKNOWN;
param->codingOption.NalHrdConformance = MFX_CODINGOPTION_UNKNOWN;
param->codingOption.SingleSeiNalUnit = MFX_CODINGOPTION_UNKNOWN;
param->codingOption.VuiVclHrdParameters = MFX_CODINGOPTION_UNKNOWN;
// introduced in API 1.4
param->codingOption.ViewOutput = MFX_CODINGOPTION_UNKNOWN;
// introduced in API 1.6
param->codingOption.RecoveryPointSEI = MFX_CODINGOPTION_UNKNOWN;
// introduced in API 1.3
memset(¶m->videoSignalInfo, 0, sizeof(mfxExtVideoSignalInfo));
param->videoSignalInfo.Header.BufferId = MFX_EXTBUFF_VIDEO_SIGNAL_INFO;
param->videoSignalInfo.Header.BufferSz = sizeof(mfxExtVideoSignalInfo);
param->videoSignalInfo.VideoFormat = 5; // undefined
param->videoSignalInfo.VideoFullRange = 0; // TV range
param->videoSignalInfo.ColourDescriptionPresent = 0; // don't write to bitstream
param->videoSignalInfo.ColourPrimaries = 2; // undefined
param->videoSignalInfo.TransferCharacteristics = 2; // undefined
param->videoSignalInfo.MatrixCoefficients = 2; // undefined
// introduced in API 1.6
memset(¶m->codingOption2, 0, sizeof(mfxExtCodingOption2));
param->codingOption2.Header.BufferId = MFX_EXTBUFF_CODING_OPTION2;
param->codingOption2.Header.BufferSz = sizeof(mfxExtCodingOption2);
param->codingOption2.IntRefType = 0;
param->codingOption2.IntRefCycleSize = 2;
param->codingOption2.IntRefQPDelta = 0;
param->codingOption2.MaxFrameSize = 0;
param->codingOption2.BitrateLimit = MFX_CODINGOPTION_ON;
param->codingOption2.MBBRC = MFX_CODINGOPTION_ON;
param->codingOption2.ExtBRC = MFX_CODINGOPTION_OFF;
// introduced in API 1.7
param->codingOption2.LookAheadDepth = 40;
param->codingOption2.Trellis = MFX_TRELLIS_OFF;
// GOP & rate control
param->gop.b_pyramid = 0;
param->gop.gop_pic_size = -1; // set automatically
param->gop.int_ref_cycle_size = -1; // set automatically
param->rc.lookahead = 1;
param->rc.cqp_offsets[0] = 0;
param->rc.cqp_offsets[1] = 2;
param->rc.cqp_offsets[2] = 4;
param->rc.vbv_max_bitrate = 0; // set automatically
param->rc.vbv_buffer_size = 0; // set automatically
param->rc.vbv_buffer_init = .0; // set automatically
// introduced in API 1.0
memset(videoParam, 0, sizeof(mfxVideoParam));
param->videoParam = videoParam;
param->videoParam->Protected = 0; // reserved, must be 0
param->videoParam->NumExtParam = 0;
param->videoParam->IOPattern = MFX_IOPATTERN_IN_SYSTEM_MEMORY;
param->videoParam->mfx.TargetUsage = MFX_TARGETUSAGE_2;
param->videoParam->mfx.GopOptFlag = MFX_GOP_CLOSED;
param->videoParam->mfx.NumThread = 0; // deprecated, must be 0
param->videoParam->mfx.EncodedOrder = 0; // input is in display order
param->videoParam->mfx.IdrInterval = 0; // all I-frames are IDR
param->videoParam->mfx.NumSlice = 0; // use Media SDK default
param->videoParam->mfx.NumRefFrame = 0; // use Media SDK default
param->videoParam->mfx.GopPicSize = 0; // use Media SDK default
param->videoParam->mfx.GopRefDist = 0; // use Media SDK default
// introduced in API 1.1
param->videoParam->AsyncDepth = AV_QSV_ASYNC_DEPTH_DEFAULT;
// introduced in API 1.3
param->videoParam->mfx.BRCParamMultiplier = 0; // no multiplier
// FrameInfo: set by video encoder, except PicStruct
param->videoParam->mfx.FrameInfo.PicStruct = MFX_PICSTRUCT_PROGRESSIVE;
// attach supported mfxExtBuffer structures to the mfxVideoParam
param->videoParam->NumExtParam = 0;
param->videoParam->ExtParam = param->ExtParamArray;
param->videoParam->ExtParam[param->videoParam->NumExtParam++] = (mfxExtBuffer*)¶m->codingOption;
param->videoParam->ExtParam[param->videoParam->NumExtParam++] = (mfxExtBuffer*)¶m->videoSignalInfo;
if (hb_qsv_info->capabilities & HB_QSV_CAP_MSDK_API_1_6)
{
param->videoParam->ExtParam[param->videoParam->NumExtParam++] = (mfxExtBuffer*)¶m->codingOption2;
}
}
else
{
hb_error("hb_qsv_param_default: invalid pointer(s)");
return -1;
}
return 0;
}
mfxIMPL hb_qsv_impl_get_preferred()
{
return preferred_implementation;
}
const char* hb_qsv_impl_get_name(int impl)
{
switch (MFX_IMPL_BASETYPE(impl))
{
case MFX_IMPL_SOFTWARE:
return "software";
case MFX_IMPL_HARDWARE:
return "hardware (1)";
case MFX_IMPL_HARDWARE2:
return "hardware (2)";
case MFX_IMPL_HARDWARE3:
return "hardware (3)";
case MFX_IMPL_HARDWARE4:
return "hardware (4)";
case MFX_IMPL_HARDWARE_ANY:
return "hardware (any)";
case MFX_IMPL_AUTO:
return "automatic";
case MFX_IMPL_AUTO_ANY:
return "automatic (any)";
default:
return NULL;
}
}
#endif // USE_QSV
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