aaru-dps/Aaru
1
0
Fork 0
mirror of https://github.com/aaru-dps/Aaru.git synced 2025-12-16 19:24:25 +00:00
Code Issues Packages Projects Releases Wiki Activity

REFACTOR: Reformat code.

Browse Source
This commit is contained in:
Natalia Portillo
2017-12-19 20:33:03 +00:00
parent 2b420c3e9a
commit eff65c4bad
78 changed files with 7724 additions and 11075 deletions
Download Patch File Download Diff File Expand all files Collapse all files

616
CD/FullTOC.cs
View File

@@ -147,8 +147,7 @@ namespace DiscImageChef.Decoders.CD
public static CDFullTOC? Decode(byte[] CDFullTOCResponse)
{
if(CDFullTOCResponse == null)
return null;
if(CDFullTOCResponse == null) return null;
CDFullTOC decoded = new CDFullTOC();
@@ -161,7 +160,9 @@ namespace DiscImageChef.Decoders.CD
if(decoded.DataLength + 2 != CDFullTOCResponse.Length)
{
DicConsole.DebugWriteLine("CD full TOC decoder", "Expected CDFullTOC size ({0} bytes) is not received size ({1} bytes), not decoding", decoded.DataLength + 2, CDFullTOCResponse.Length);
DicConsole.DebugWriteLine("CD full TOC decoder",
"Expected CDFullTOC size ({0} bytes) is not received size ({1} bytes), not decoding",
decoded.DataLength + 2, CDFullTOCResponse.Length);
return null;
}
@@ -188,8 +189,7 @@ namespace DiscImageChef.Decoders.CD
public static string Prettify(CDFullTOC? CDFullTOCResponse)
{
if(CDFullTOCResponse == null)
return null;
if(CDFullTOCResponse == null) return null;
CDFullTOC response = CDFullTOCResponse.Value;
@@ -202,8 +202,8 @@ namespace DiscImageChef.Decoders.CD
foreach(TrackDataDescriptor descriptor in response.TrackDescriptors)
{
if((descriptor.CONTROL & 0x08) == 0x08 ||
(descriptor.ADR != 1 && descriptor.ADR != 5 && descriptor.ADR != 4 && descriptor.ADR != 6) ||
descriptor.TNO != 0)
(descriptor.ADR != 1 && descriptor.ADR != 5 && descriptor.ADR != 4 && descriptor.ADR != 6) ||
descriptor.TNO != 0)
{
sb.AppendLine("Unknown TOC entry format, printing values as-is");
sb.AppendFormat("SessionNumber = {0}", descriptor.SessionNumber).AppendLine();
@@ -232,308 +232,365 @@ namespace DiscImageChef.Decoders.CD
{
case 1:
case 4:
{
switch(descriptor.POINT)
{
switch(descriptor.POINT)
case 0xA0:
{
case 0xA0:
if(descriptor.ADR == 4)
{
sb.AppendFormat("First video track number: {0}", descriptor.PMIN).AppendLine();
switch(descriptor.PSEC)
{
if(descriptor.ADR == 4)
{
sb.AppendFormat("First video track number: {0}", descriptor.PMIN).AppendLine();
switch(descriptor.PSEC)
{
case 0x10:
sb.AppendLine("CD-V single in NTSC format with digital stereo sound");
break;
case 0x11:
sb.AppendLine("CD-V single in NTSC format with digital bilingual sound");
break;
case 0x12:
sb.AppendLine("CD-V disc in NTSC format with digital stereo sound");
break;
case 0x13:
sb.AppendLine("CD-V disc in NTSC format with digital bilingual sound");
break;
case 0x20:
sb.AppendLine("CD-V single in PAL format with digital stereo sound");
break;
case 0x21:
sb.AppendLine("CD-V single in PAL format with digital bilingual sound");
break;
case 0x22:
sb.AppendLine("CD-V disc in PAL format with digital stereo sound");
break;
case 0x23:
sb.AppendLine("CD-V disc in PAL format with digital bilingual sound");
break;
}
}
else
{
sb.AppendFormat("First track number: {0} (", descriptor.PMIN);
switch((TOC_CONTROL)(descriptor.CONTROL & 0x0D))
{
case TOC_CONTROL.TwoChanNoPreEmph:
sb.Append(StereoNoPre);
break;
case TOC_CONTROL.TwoChanPreEmph:
sb.Append(StereoPreEm);
break;
case TOC_CONTROL.FourChanNoPreEmph:
sb.Append(QuadNoPreEm);
break;
case TOC_CONTROL.FourChanPreEmph:
sb.Append(QuadPreEmph);
break;
case TOC_CONTROL.DataTrack:
sb.Append(DataUnintrp);
break;
case TOC_CONTROL.DataTrackIncremental:
sb.Append(DataIncrtly);
break;
}
sb.AppendLine(")");
sb.AppendFormat("Disc type: {0}", descriptor.PSEC).AppendLine();
//sb.AppendFormat("Absolute time: {3:D2}:{0:D2}:{1:D2}:{2:D2}", descriptor.Min, descriptor.Sec, descriptor.Frame, descriptor.HOUR).AppendLine();
}
break;
case 0x10:
sb.AppendLine("CD-V single in NTSC format with digital stereo sound");
break;
case 0x11:
sb.AppendLine("CD-V single in NTSC format with digital bilingual sound");
break;
case 0x12:
sb.AppendLine("CD-V disc in NTSC format with digital stereo sound");
break;
case 0x13:
sb.AppendLine("CD-V disc in NTSC format with digital bilingual sound");
break;
case 0x20:
sb.AppendLine("CD-V single in PAL format with digital stereo sound");
break;
case 0x21:
sb.AppendLine("CD-V single in PAL format with digital bilingual sound");
break;
case 0x22:
sb.AppendLine("CD-V disc in PAL format with digital stereo sound");
break;
case 0x23:
sb.AppendLine("CD-V disc in PAL format with digital bilingual sound");
break;
}
case 0xA1:
}
else
{
sb.AppendFormat("First track number: {0} (", descriptor.PMIN);
switch((TOC_CONTROL)(descriptor.CONTROL & 0x0D))
{
if(descriptor.ADR == 4)
sb.AppendFormat("Last video track number: {0}", descriptor.PMIN).AppendLine();
else
{
sb.AppendFormat("Last track number: {0} (", descriptor.PMIN);
switch((TOC_CONTROL)(descriptor.CONTROL & 0x0D))
{
case TOC_CONTROL.TwoChanNoPreEmph:
sb.Append(StereoNoPre);
break;
case TOC_CONTROL.TwoChanPreEmph:
sb.Append(StereoPreEm);
break;
case TOC_CONTROL.FourChanNoPreEmph:
sb.Append(QuadNoPreEm);
break;
case TOC_CONTROL.FourChanPreEmph:
sb.Append(QuadPreEmph);
break;
case TOC_CONTROL.DataTrack:
sb.Append(DataUnintrp);
break;
case TOC_CONTROL.DataTrackIncremental:
sb.Append(DataIncrtly);
break;
}
sb.AppendLine(")");
}
//sb.AppendFormat("Absolute time: {3:D2}:{0:D2}:{1:D2}:{2:D2}", descriptor.Min, descriptor.Sec, descriptor.Frame, descriptor.HOUR).AppendLine();
break;
case TOC_CONTROL.TwoChanNoPreEmph:
sb.Append(StereoNoPre);
break;
case TOC_CONTROL.TwoChanPreEmph:
sb.Append(StereoPreEm);
break;
case TOC_CONTROL.FourChanNoPreEmph:
sb.Append(QuadNoPreEm);
break;
case TOC_CONTROL.FourChanPreEmph:
sb.Append(QuadPreEmph);
break;
case TOC_CONTROL.DataTrack:
sb.Append(DataUnintrp);
break;
case TOC_CONTROL.DataTrackIncremental:
sb.Append(DataIncrtly);
break;
}
case 0xA2:
sb.AppendLine(")");
sb.AppendFormat("Disc type: {0}", descriptor.PSEC).AppendLine();
//sb.AppendFormat("Absolute time: {3:D2}:{0:D2}:{1:D2}:{2:D2}", descriptor.Min, descriptor.Sec, descriptor.Frame, descriptor.HOUR).AppendLine();
}
break;
}
case 0xA1:
{
if(descriptor.ADR == 4)
sb.AppendFormat("Last video track number: {0}", descriptor.PMIN).AppendLine();
else
{
sb.AppendFormat("Last track number: {0} (", descriptor.PMIN);
switch((TOC_CONTROL)(descriptor.CONTROL & 0x0D))
{
case TOC_CONTROL.TwoChanNoPreEmph:
sb.Append(StereoNoPre);
break;
case TOC_CONTROL.TwoChanPreEmph:
sb.Append(StereoPreEm);
break;
case TOC_CONTROL.FourChanNoPreEmph:
sb.Append(QuadNoPreEm);
break;
case TOC_CONTROL.FourChanPreEmph:
sb.Append(QuadPreEmph);
break;
case TOC_CONTROL.DataTrack:
sb.Append(DataUnintrp);
break;
case TOC_CONTROL.DataTrackIncremental:
sb.Append(DataIncrtly);
break;
}
sb.AppendLine(")");
}
//sb.AppendFormat("Absolute time: {3:D2}:{0:D2}:{1:D2}:{2:D2}", descriptor.Min, descriptor.Sec, descriptor.Frame, descriptor.HOUR).AppendLine();
break;
}
case 0xA2:
{
if(descriptor.PHOUR > 0)
sb.AppendFormat("Lead-out start position: {3:D2}:{0:D2}:{1:D2}:{2:D2}",
descriptor.PMIN, descriptor.PSEC, descriptor.PFRAME,
descriptor.PHOUR).AppendLine();
else
sb.AppendFormat("Lead-out start position: {0:D2}:{1:D2}:{2:D2}",
descriptor.PMIN, descriptor.PSEC, descriptor.PFRAME)
.AppendLine();
//sb.AppendFormat("Absolute time: {3:D2}:{0:D2}:{1:D2}:{2:D2}", descriptor.Min, descriptor.Sec, descriptor.Frame, descriptor.HOUR).AppendLine();
switch((TOC_CONTROL)(descriptor.CONTROL & 0x0D))
{
case TOC_CONTROL.TwoChanNoPreEmph:
case TOC_CONTROL.TwoChanPreEmph:
case TOC_CONTROL.FourChanNoPreEmph:
case TOC_CONTROL.FourChanPreEmph:
sb.AppendLine("Lead-out is audio type");
break;
case TOC_CONTROL.DataTrack:
case TOC_CONTROL.DataTrackIncremental:
sb.AppendLine("Lead-out is data type");
break;
}
break;
}
case 0xF0:
{
sb.AppendFormat("Book type: 0x{0:X2}", descriptor.PMIN);
sb.AppendFormat("Material type: 0x{0:X2}", descriptor.PSEC);
sb.AppendFormat("Moment of inertia: 0x{0:X2}", descriptor.PFRAME);
if(descriptor.PHOUR > 0)
sb.AppendFormat("Absolute time: {3:D2}:{0:D2}:{1:D2}:{2:D2}", descriptor.Min,
descriptor.Sec, descriptor.Frame, descriptor.HOUR).AppendLine();
else
sb.AppendFormat("Absolute time: {0:D2}:{1:D2}:{2:D2}", descriptor.Min,
descriptor.Sec, descriptor.Frame).AppendLine();
break;
}
default:
{
if(descriptor.POINT >= 0x01 && descriptor.POINT <= 0x63)
{
if(descriptor.ADR == 4)
sb.AppendFormat("Video track {3} starts at: {0:D2}:{1:D2}:{2:D2}",
descriptor.PMIN, descriptor.PSEC, descriptor.PFRAME,
descriptor.POINT).AppendLine();
else
{
string type = "Audio";
if((TOC_CONTROL)(descriptor.CONTROL & 0x0D) == TOC_CONTROL.DataTrack ||
(TOC_CONTROL)(descriptor.CONTROL & 0x0D) ==
TOC_CONTROL.DataTrackIncremental) type = "Data";
if(descriptor.PHOUR > 0)
sb.AppendFormat("Lead-out start position: {3:D2}:{0:D2}:{1:D2}:{2:D2}", descriptor.PMIN, descriptor.PSEC, descriptor.PFRAME, descriptor.PHOUR).AppendLine();
sb.AppendFormat("{5} track {3} starts at: {4:D2}:{0:D2}:{1:D2}:{2:D2} (",
descriptor.PMIN, descriptor.PSEC, descriptor.PFRAME,
descriptor.POINT, descriptor.PHOUR, type);
else
sb.AppendFormat("Lead-out start position: {0:D2}:{1:D2}:{2:D2}", descriptor.PMIN, descriptor.PSEC, descriptor.PFRAME).AppendLine();
//sb.AppendFormat("Absolute time: {3:D2}:{0:D2}:{1:D2}:{2:D2}", descriptor.Min, descriptor.Sec, descriptor.Frame, descriptor.HOUR).AppendLine();
sb.AppendFormat("{4} track {3} starts at: {0:D2}:{1:D2}:{2:D2} (",
descriptor.PMIN, descriptor.PSEC, descriptor.PFRAME,
descriptor.POINT, type);
switch((TOC_CONTROL)(descriptor.CONTROL & 0x0D))
{
case TOC_CONTROL.TwoChanNoPreEmph:
sb.Append(StereoNoPre);
break;
case TOC_CONTROL.TwoChanPreEmph:
sb.Append(StereoPreEm);
break;
case TOC_CONTROL.FourChanNoPreEmph:
sb.Append(QuadNoPreEm);
break;
case TOC_CONTROL.FourChanPreEmph:
sb.AppendLine("Lead-out is audio type");
sb.Append(QuadPreEmph);
break;
case TOC_CONTROL.DataTrack:
sb.Append(DataUnintrp);
break;
case TOC_CONTROL.DataTrackIncremental:
sb.AppendLine("Lead-out is data type");
sb.Append(DataIncrtly);
break;
}
break;
}
case 0xF0:
{
sb.AppendFormat("Book type: 0x{0:X2}", descriptor.PMIN);
sb.AppendFormat("Material type: 0x{0:X2}", descriptor.PSEC);
sb.AppendFormat("Moment of inertia: 0x{0:X2}", descriptor.PFRAME);
if(descriptor.PHOUR > 0)
sb.AppendFormat("Absolute time: {3:D2}:{0:D2}:{1:D2}:{2:D2}", descriptor.Min, descriptor.Sec, descriptor.Frame, descriptor.HOUR).AppendLine();
else
sb.AppendFormat("Absolute time: {0:D2}:{1:D2}:{2:D2}", descriptor.Min, descriptor.Sec, descriptor.Frame).AppendLine();
break;
}
default:
{
if(descriptor.POINT >= 0x01 && descriptor.POINT <= 0x63)
{
if(descriptor.ADR == 4)
sb.AppendFormat("Video track {3} starts at: {0:D2}:{1:D2}:{2:D2}", descriptor.PMIN, descriptor.PSEC, descriptor.PFRAME, descriptor.POINT).AppendLine();
else
{
string type = "Audio";
if((TOC_CONTROL)(descriptor.CONTROL & 0x0D) == TOC_CONTROL.DataTrack ||
(TOC_CONTROL)(descriptor.CONTROL & 0x0D) == TOC_CONTROL.DataTrackIncremental)
type = "Data";
if(descriptor.PHOUR > 0)
sb.AppendFormat("{5} track {3} starts at: {4:D2}:{0:D2}:{1:D2}:{2:D2} (", descriptor.PMIN, descriptor.PSEC, descriptor.PFRAME, descriptor.POINT, descriptor.PHOUR, type);
else
sb.AppendFormat("{4} track {3} starts at: {0:D2}:{1:D2}:{2:D2} (", descriptor.PMIN, descriptor.PSEC, descriptor.PFRAME, descriptor.POINT, type);
switch((TOC_CONTROL)(descriptor.CONTROL & 0x0D))
{
case TOC_CONTROL.TwoChanNoPreEmph:
sb.Append(StereoNoPre);
break;
case TOC_CONTROL.TwoChanPreEmph:
sb.Append(StereoPreEm);
break;
case TOC_CONTROL.FourChanNoPreEmph:
sb.Append(QuadNoPreEm);
break;
case TOC_CONTROL.FourChanPreEmph:
sb.Append(QuadPreEmph);
break;
case TOC_CONTROL.DataTrack:
sb.Append(DataUnintrp);
break;
case TOC_CONTROL.DataTrackIncremental:
sb.Append(DataIncrtly);
break;
}
sb.AppendLine(")");
}
//sb.AppendFormat("Absolute time: {3:D2}:{0:D2}:{1:D2}:{2:D2}", descriptor.Min, descriptor.Sec, descriptor.Frame, descriptor.HOUR).AppendLine();
}
else
{
sb.AppendFormat("ADR = {0}", descriptor.ADR).AppendLine();
sb.AppendFormat("CONTROL = {0}", descriptor.CONTROL).AppendLine();
sb.AppendFormat("TNO = {0}", descriptor.TNO).AppendLine();
sb.AppendFormat("POINT = {0}", descriptor.POINT).AppendLine();
sb.AppendFormat("Min = {0}", descriptor.Min).AppendLine();
sb.AppendFormat("Sec = {0}", descriptor.Sec).AppendLine();
sb.AppendFormat("Frame = {0}", descriptor.Frame).AppendLine();
sb.AppendFormat("HOUR = {0}", descriptor.HOUR).AppendLine();
sb.AppendFormat("PHOUR = {0}", descriptor.PHOUR).AppendLine();
sb.AppendFormat("PMIN = {0}", descriptor.PMIN).AppendLine();
sb.AppendFormat("PSEC = {0}", descriptor.PSEC).AppendLine();
sb.AppendFormat("PFRAME = {0}", descriptor.PFRAME).AppendLine();
}
break;
sb.AppendLine(")");
}
//sb.AppendFormat("Absolute time: {3:D2}:{0:D2}:{1:D2}:{2:D2}", descriptor.Min, descriptor.Sec, descriptor.Frame, descriptor.HOUR).AppendLine();
}
else
{
sb.AppendFormat("ADR = {0}", descriptor.ADR).AppendLine();
sb.AppendFormat("CONTROL = {0}", descriptor.CONTROL).AppendLine();
sb.AppendFormat("TNO = {0}", descriptor.TNO).AppendLine();
sb.AppendFormat("POINT = {0}", descriptor.POINT).AppendLine();
sb.AppendFormat("Min = {0}", descriptor.Min).AppendLine();
sb.AppendFormat("Sec = {0}", descriptor.Sec).AppendLine();
sb.AppendFormat("Frame = {0}", descriptor.Frame).AppendLine();
sb.AppendFormat("HOUR = {0}", descriptor.HOUR).AppendLine();
sb.AppendFormat("PHOUR = {0}", descriptor.PHOUR).AppendLine();
sb.AppendFormat("PMIN = {0}", descriptor.PMIN).AppendLine();
sb.AppendFormat("PSEC = {0}", descriptor.PSEC).AppendLine();
sb.AppendFormat("PFRAME = {0}", descriptor.PFRAME).AppendLine();
}
break;
}
break;
}
break;
}
case 5:
{
switch(descriptor.POINT)
{
switch(descriptor.POINT)
case 0xB0:
{
case 0xB0:
{
if(descriptor.PHOUR > 0)
{
sb.AppendFormat("Start of next possible program in the recordable area of the disc: {3:D2}:{0:D2}:{1:D2}:{2:D2}", descriptor.Min, descriptor.Sec, descriptor.Frame, descriptor.HOUR).AppendLine();
sb.AppendFormat("Maximum start of outermost Lead-out in the recordable area of the disc: {3:D2}:{0:D2}:{1:D2}:{2:D2}", descriptor.PMIN, descriptor.PSEC, descriptor.PFRAME, descriptor.PHOUR).AppendLine();
}
else
{
sb.AppendFormat("Start of next possible program in the recordable area of the disc: {0:D2}:{1:D2}:{2:D2}", descriptor.Min, descriptor.Sec, descriptor.Frame).AppendLine();
sb.AppendFormat("Maximum start of outermost Lead-out in the recordable area of the disc: {0:D2}:{1:D2}:{2:D2}", descriptor.PMIN, descriptor.PSEC, descriptor.PFRAME).AppendLine();
}
break;
}
case 0xB1:
{
sb.AppendFormat("Number of skip interval pointers: {0}", descriptor.PMIN).AppendLine();
sb.AppendFormat("Number of skip track pointers: {0}", descriptor.PSEC).AppendLine();
break;
}
case 0xB2:
case 0xB3:
case 0xB4:
{
sb.AppendFormat("Skip track {0}", descriptor.Min).AppendLine();
sb.AppendFormat("Skip track {0}", descriptor.Sec).AppendLine();
sb.AppendFormat("Skip track {0}", descriptor.Frame).AppendLine();
sb.AppendFormat("Skip track {0}", descriptor.Zero).AppendLine();
sb.AppendFormat("Skip track {0}", descriptor.PMIN).AppendLine();
sb.AppendFormat("Skip track {0}", descriptor.PSEC).AppendLine();
sb.AppendFormat("Skip track {0}", descriptor.PFRAME).AppendLine();
break;
}
case 0xC0:
{
sb.AppendFormat("Optimum recording power: 0x{0:X2}", descriptor.Min).AppendLine();
if(descriptor.PHOUR > 0)
sb.AppendFormat("Start time of the first Lead-in area in the disc: {3:D2}:{0:D2}:{1:D2}:{2:D2}", descriptor.PMIN, descriptor.PSEC, descriptor.PFRAME, descriptor.PHOUR).AppendLine();
else
sb.AppendFormat("Start time of the first Lead-in area in the disc: {0:D2}:{1:D2}:{2:D2}", descriptor.PMIN, descriptor.PSEC, descriptor.PFRAME).AppendLine();
break;
}
case 0xC1:
{
sb.AppendFormat("Copy of information of A1 from ATIP found");
sb.AppendFormat("Min = {0}", descriptor.Min).AppendLine();
sb.AppendFormat("Sec = {0}", descriptor.Sec).AppendLine();
sb.AppendFormat("Frame = {0}", descriptor.Frame).AppendLine();
sb.AppendFormat("Zero = {0}", descriptor.Zero).AppendLine();
sb.AppendFormat("PMIN = {0}", descriptor.PMIN).AppendLine();
sb.AppendFormat("PSEC = {0}", descriptor.PSEC).AppendLine();
sb.AppendFormat("PFRAME = {0}", descriptor.PFRAME).AppendLine();
break;
}
case 0xCF:
{
if(descriptor.PHOUR > 0)
{
sb.AppendFormat("Start position of outer part lead-in area: {3:D2}:{0:D2}:{1:D2}:{2:D2}", descriptor.PMIN, descriptor.PSEC, descriptor.PFRAME, descriptor.PHOUR).AppendLine();
sb.AppendFormat("Stop position of inner part lead-out area: {3:D2}:{0:D2}:{1:D2}:{2:D2}", descriptor.Min, descriptor.Sec, descriptor.Frame, descriptor.HOUR).AppendLine();
}
else
{
sb.AppendFormat("Start position of outer part lead-in area: {0:D2}:{1:D2}:{2:D2}", descriptor.PMIN, descriptor.PSEC, descriptor.PFRAME).AppendLine();
sb.AppendFormat("Stop position of inner part lead-out area: {0:D2}:{1:D2}:{2:D2}", descriptor.Min, descriptor.Sec, descriptor.Frame).AppendLine();
}
break;
}
default:
{
if(descriptor.POINT >= 0x01 && descriptor.POINT <= 0x40)
{
sb.AppendFormat("Start time for interval that should be skipped: {0:D2}:{1:D2}:{2:D2}", descriptor.PMIN, descriptor.PSEC, descriptor.PFRAME).AppendLine();
sb.AppendFormat("Ending time for interval that should be skipped: {0:D2}:{1:D2}:{2:D2}", descriptor.Min, descriptor.Sec, descriptor.Frame).AppendLine();
}
else
{
sb.AppendFormat("ADR = {0}", descriptor.ADR).AppendLine();
sb.AppendFormat("CONTROL = {0}", descriptor.CONTROL).AppendLine();
sb.AppendFormat("TNO = {0}", descriptor.TNO).AppendLine();
sb.AppendFormat("POINT = {0}", descriptor.POINT).AppendLine();
sb.AppendFormat("Min = {0}", descriptor.Min).AppendLine();
sb.AppendFormat("Sec = {0}", descriptor.Sec).AppendLine();
sb.AppendFormat("Frame = {0}", descriptor.Frame).AppendLine();
sb.AppendFormat("HOUR = {0}", descriptor.HOUR).AppendLine();
sb.AppendFormat("PHOUR = {0}", descriptor.PHOUR).AppendLine();
sb.AppendFormat("PMIN = {0}", descriptor.PMIN).AppendLine();
sb.AppendFormat("PSEC = {0}", descriptor.PSEC).AppendLine();
sb.AppendFormat("PFRAME = {0}", descriptor.PFRAME).AppendLine();
}
break;
}
if(descriptor.PHOUR > 0)
{
sb
.AppendFormat("Start of next possible program in the recordable area of the disc: {3:D2}:{0:D2}:{1:D2}:{2:D2}",
descriptor.Min, descriptor.Sec, descriptor.Frame,
descriptor.HOUR).AppendLine();
sb
.AppendFormat("Maximum start of outermost Lead-out in the recordable area of the disc: {3:D2}:{0:D2}:{1:D2}:{2:D2}",
descriptor.PMIN, descriptor.PSEC, descriptor.PFRAME,
descriptor.PHOUR).AppendLine();
}
else
{
sb
.AppendFormat("Start of next possible program in the recordable area of the disc: {0:D2}:{1:D2}:{2:D2}",
descriptor.Min, descriptor.Sec, descriptor.Frame)
.AppendLine();
sb
.AppendFormat("Maximum start of outermost Lead-out in the recordable area of the disc: {0:D2}:{1:D2}:{2:D2}",
descriptor.PMIN, descriptor.PSEC, descriptor.PFRAME)
.AppendLine();
}
break;
}
case 0xB1:
{
sb.AppendFormat("Number of skip interval pointers: {0}", descriptor.PMIN)
.AppendLine();
sb.AppendFormat("Number of skip track pointers: {0}", descriptor.PSEC).AppendLine();
break;
}
case 0xB2:
case 0xB3:
case 0xB4:
{
sb.AppendFormat("Skip track {0}", descriptor.Min).AppendLine();
sb.AppendFormat("Skip track {0}", descriptor.Sec).AppendLine();
sb.AppendFormat("Skip track {0}", descriptor.Frame).AppendLine();
sb.AppendFormat("Skip track {0}", descriptor.Zero).AppendLine();
sb.AppendFormat("Skip track {0}", descriptor.PMIN).AppendLine();
sb.AppendFormat("Skip track {0}", descriptor.PSEC).AppendLine();
sb.AppendFormat("Skip track {0}", descriptor.PFRAME).AppendLine();
break;
}
case 0xC0:
{
sb.AppendFormat("Optimum recording power: 0x{0:X2}", descriptor.Min).AppendLine();
if(descriptor.PHOUR > 0)
sb
.AppendFormat("Start time of the first Lead-in area in the disc: {3:D2}:{0:D2}:{1:D2}:{2:D2}",
descriptor.PMIN, descriptor.PSEC, descriptor.PFRAME,
descriptor.PHOUR).AppendLine();
else
sb
.AppendFormat("Start time of the first Lead-in area in the disc: {0:D2}:{1:D2}:{2:D2}",
descriptor.PMIN, descriptor.PSEC, descriptor.PFRAME)
.AppendLine();
break;
}
case 0xC1:
{
sb.AppendFormat("Copy of information of A1 from ATIP found");
sb.AppendFormat("Min = {0}", descriptor.Min).AppendLine();
sb.AppendFormat("Sec = {0}", descriptor.Sec).AppendLine();
sb.AppendFormat("Frame = {0}", descriptor.Frame).AppendLine();
sb.AppendFormat("Zero = {0}", descriptor.Zero).AppendLine();
sb.AppendFormat("PMIN = {0}", descriptor.PMIN).AppendLine();
sb.AppendFormat("PSEC = {0}", descriptor.PSEC).AppendLine();
sb.AppendFormat("PFRAME = {0}", descriptor.PFRAME).AppendLine();
break;
}
case 0xCF:
{
if(descriptor.PHOUR > 0)
{
sb
.AppendFormat("Start position of outer part lead-in area: {3:D2}:{0:D2}:{1:D2}:{2:D2}",
descriptor.PMIN, descriptor.PSEC, descriptor.PFRAME,
descriptor.PHOUR).AppendLine();
sb
.AppendFormat("Stop position of inner part lead-out area: {3:D2}:{0:D2}:{1:D2}:{2:D2}",
descriptor.Min, descriptor.Sec, descriptor.Frame,
descriptor.HOUR).AppendLine();
}
else
{
sb
.AppendFormat("Start position of outer part lead-in area: {0:D2}:{1:D2}:{2:D2}",
descriptor.PMIN, descriptor.PSEC, descriptor.PFRAME)
.AppendLine();
sb
.AppendFormat("Stop position of inner part lead-out area: {0:D2}:{1:D2}:{2:D2}",
descriptor.Min, descriptor.Sec, descriptor.Frame)
.AppendLine();
}
break;
}
default:
{
if(descriptor.POINT >= 0x01 && descriptor.POINT <= 0x40)
{
sb
.AppendFormat("Start time for interval that should be skipped: {0:D2}:{1:D2}:{2:D2}",
descriptor.PMIN, descriptor.PSEC, descriptor.PFRAME)
.AppendLine();
sb
.AppendFormat("Ending time for interval that should be skipped: {0:D2}:{1:D2}:{2:D2}",
descriptor.Min, descriptor.Sec, descriptor.Frame)
.AppendLine();
}
else
{
sb.AppendFormat("ADR = {0}", descriptor.ADR).AppendLine();
sb.AppendFormat("CONTROL = {0}", descriptor.CONTROL).AppendLine();
sb.AppendFormat("TNO = {0}", descriptor.TNO).AppendLine();
sb.AppendFormat("POINT = {0}", descriptor.POINT).AppendLine();
sb.AppendFormat("Min = {0}", descriptor.Min).AppendLine();
sb.AppendFormat("Sec = {0}", descriptor.Sec).AppendLine();
sb.AppendFormat("Frame = {0}", descriptor.Frame).AppendLine();
sb.AppendFormat("HOUR = {0}", descriptor.HOUR).AppendLine();
sb.AppendFormat("PHOUR = {0}", descriptor.PHOUR).AppendLine();
sb.AppendFormat("PMIN = {0}", descriptor.PMIN).AppendLine();
sb.AppendFormat("PSEC = {0}", descriptor.PSEC).AppendLine();
sb.AppendFormat("PFRAME = {0}", descriptor.PFRAME).AppendLine();
}
break;
}
break;
}
break;
}
case 6:
{
uint id = (uint)((descriptor.Min << 16) + (descriptor.Sec << 8) + descriptor.Frame);
sb.AppendFormat("Disc ID: {0:X6}", id & 0x00FFFFFF).AppendLine();
break;
}
{
uint id = (uint)((descriptor.Min << 16) + (descriptor.Sec << 8) + descriptor.Frame);
sb.AppendFormat("Disc ID: {0:X6}", id & 0x00FFFFFF).AppendLine();
break;
}
}
}
}
@@ -547,5 +604,4 @@ namespace DiscImageChef.Decoders.CD
return Prettify(decoded);
}
}
}
}