Repo for the search and displace ingest module that takes odf, docx and pdf and transforms it into .md to be used with search and displace operations
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{
Deskew
by Marek Mauder
http://galfar.vevb.net/deskew
The contents of this file are used with permission, subject to the Mozilla
Public License Version 1.1 (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.mozilla.org/MPL/MPL-1.1.html
Software distributed under the License is distributed on an "AS IS" basis,
WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License for
the specific language governing rights and limitations under the License.
Alternatively, the contents of this file may be used under the terms of the
GNU Lesser General Public License (the "LGPL License"), in which case the
provisions of the LGPL License are applicable instead of those above.
If you wish to allow use of your version of this file only under the terms
of the LGPL License and not to allow others to use your version of this file
under the MPL, indicate your decision by deleting the provisions above and
replace them with the notice and other provisions required by the LGPL
License. If you do not delete the provisions above, a recipient may use
your version of this file under either the MPL or the LGPL License.
For more information about the LGPL: http://www.gnu.org/copyleft/lesser.html
}
unit CmdLineOptions;
interface
uses
{$IFNDEF FPC}
Types,
StrUtils,
{$ENDIF}
SysUtils,
Classes,
ImagingTypes,
ImagingUtility,
ImageUtils;
const
DefaultThreshold = 128;
DefaultMaxAngle = 10;
DefaultSkipAngle = 0.01;
SDefaultOutputFile = 'out.png';
type
TThresholdingMethod = (
// Use explicit threshold [0..255]
tmExplicit,
// Use adaptive thresholding: Otsu's method
tmOtsu
);
TOperationalFlag = (
ofAutoCrop,
ofDetectOnly
);
TOperationalFlags = set of TOperationalFlag;
TCmdLineOptions = class
private
FInputFile: string;
FOutputFile: string;
FMaxAngle: Double;
FSkipAngle: Double;
FResamplingFilter: TResamplingFilter;
FThresholdingMethod: TThresholdingMethod;
FThresholdLevel: Integer;
FContentRect: TRect;
FBackgroundColor: TColor32;
FForcedOutputFormat: TImageFormat;
FOperationalFlags: TOperationalFlags;
FShowStats: Boolean;
FShowParams: Boolean;
FShowTimings: Boolean;
FJpegCompressionQuality: Integer;
FTiffCompressionScheme: Integer;
FFormatSettings: TFormatSettings;
FErrorMessage: string;
function GetIsValid: Boolean;
public
constructor Create;
// Parses command line arguments to get optiosn set by user
function ParseCommnadLine: Boolean;
function OptionsToString: string;
property InputFile: string read FInputFile;
property OutputFile: string read FOutputFile;
// Max expected rotation angle - algo then works in range [-MaxAngle, MaxAngle]
property MaxAngle: Double read FMaxAngle;
// Skew threshold angle - skip deskewing if detected skew angle is in range (-MinAngle, MinAngle)
property SkipAngle: Double read FSkipAngle;
// Resampling filter used for rotations
property ResamplingFilter: TResamplingFilter read FResamplingFilter;
// Thresholding method used when converting images to binary black/white format
property ThresholdingMethod: TThresholdingMethod read FThresholdingMethod;
// Threshold for black/white pixel classification for explicit thresholding method
property ThresholdLevel: Integer read FThresholdLevel;
// Rect where to do the skew detection on the page image
property ContentRect: TRect read FContentRect;
// Background color for the rotated image
property BackgroundColor: TColor32 read FBackgroundColor;
// Forced output format (applied just before saving the output)
property ForcedOutputFormat: TImageFormat read FForcedOutputFormat;
// On/Off flags that control parts of the whole operation
property OperationalFlags: TOperationalFlags read FOperationalFlags;
// Show skew detection stats
property ShowStats: Boolean read FShowStats;
// Show current params to user (for testing etc.)
property ShowParams: Boolean read FShowParams;
// Show timing of processing steps to user
property ShowTimings: Boolean read FShowTimings;
// Compression quality of JPEG outputs (also embedded) in range [1, 100(best)]
property JpegCompressionQuality: Integer read FJpegCompressionQuality;
// Compression scheme of TIFF outputs. Values and default in imaginglib.
property TiffCompressionScheme: Integer read FTiffCompressionScheme;
property IsValid: Boolean read GetIsValid;
property ErrorMessage: string read FErrorMessage;
end;
implementation
uses
TypInfo, Imaging, ImagingTiff;
const
TiffCompressionNames: array[TiffCompressionOptionNone..TiffCompressionOptionGroup4] of string = (
'none', 'lzw', 'rle', 'deflate', 'jpeg', 'g4'
);
{ TCmdLineOptions }
constructor TCmdLineOptions.Create;
begin
FThresholdLevel := DefaultThreshold;
FMaxAngle := DefaultMaxAngle;
FSkipAngle := DefaultSkipAngle;
FResamplingFilter := rfLinear;
FThresholdingMethod := tmOtsu;
FContentRect := Rect(0, 0, 0, 0); // whole page
FBackgroundColor := $FF000000;
FOutputFile := SDefaultOutputFile;
FOperationalFlags := [];
FShowStats := False;
FShowParams := False;
FShowTimings:= False;
FForcedOutputFormat := ifUnknown;
FJpegCompressionQuality := -1; // use imaginglib default
FTiffCompressionScheme := -1; // use imaginglib default
FFormatSettings := ImagingUtility.GetFormatSettingsForFloats;
end;
function TCmdLineOptions.GetIsValid: Boolean;
begin
Result := (InputFile <> '') and (MaxAngle > 0) and (SkipAngle >= 0) and
((ThresholdingMethod in [tmOtsu]) or (ThresholdingMethod = tmExplicit) and (ThresholdLevel > 0));
end;
function TCmdLineOptions.ParseCommnadLine: Boolean;
var
I: LongInt;
Param, Arg: string;
// From Delphi RTL StrUtils.pas - for compiling in Delphi 7
function SplitString(const S, Delimiters: string): TDynStringArray;
var
StartIdx: Integer;
FoundIdx: Integer;
SplitPoints: Integer;
CurrentSplit: Integer;
I: Integer;
function FindDelimiter(const Delimiters, S: string; StartIdx: Integer = 1): Integer;
var
Stop: Boolean;
Len: Integer;
begin
Result := 0;
Len := Length(S);
Stop := False;
while (not Stop) and (StartIdx <= Len) do
if IsDelimiter(Delimiters, S, StartIdx) then
begin
Result := StartIdx;
Stop := True;
end
else
Inc(StartIdx);
end;
begin
Result := nil;
if S <> '' then
begin
SplitPoints := 0;
for I := 1 to Length(S) do
begin
if IsDelimiter(Delimiters, S, I) then
Inc(SplitPoints);
end;
SetLength(Result, SplitPoints + 1);
StartIdx := 1;
CurrentSplit := 0;
repeat
FoundIdx := FindDelimiter(Delimiters, S, StartIdx);
if FoundIdx <> 0 then
begin
Result[CurrentSplit] := Copy(S, StartIdx, FoundIdx - StartIdx);
Inc(CurrentSplit);
StartIdx := FoundIdx + 1;
end;
until CurrentSplit = SplitPoints;
Result[SplitPoints] := Copy(S, StartIdx, Length(S) - StartIdx + 1);
end;
end;
function CheckParam(const Param, Value: string): Boolean;
var
StrArray: TDynStringArray;
ValLower, S: string;
TempColor: Cardinal;
Val64: Int64;
I, J: Integer;
begin
Result := True;
ValLower := LowerCase(Value);
if Param = '-o' then
FOutputFile := Value
else if Param = '-a' then
begin
if not TryStrToFloat(Value, FMaxAngle, FFormatSettings) then
FErrorMessage := 'Invalid value for max angle parameter: ' + Value;
end
else if Param = '-l' then
begin
if not TryStrToFloat(Value, FSkipAngle, FFormatSettings) then
FErrorMessage := 'Invalid value for skip angle parameter: ' + Value;
end
else if Param = '-t' then
begin
if ValLower = 'a' then
FThresholdingMethod := tmOtsu
else
begin
FThresholdingMethod := tmExplicit;
if not TryStrToInt(Value, FThresholdLevel) then
FErrorMessage := 'Invalid value for treshold parameter: ' + Value;
end;
end
else if Param = '-b' then
begin
if TryStrToInt64('$' + ValLower, Val64) then
begin
TempColor := Cardinal(Val64 and $FFFFFFFF);
if TempColor <= $FF then
begin
// Just one channel given, replicate for all channels + opaque
FBackgroundColor := Color32($FF, Byte(TempColor), Byte(TempColor), Byte(TempColor)).Color;
end
else if (TempColor <= $FFFFFF) and (Length(ValLower) <= 6) then
begin
// RGB given, set alpha to 255 for background
FBackgroundColor := $FF000000 or TempColor;
end
else
begin
// Full ARGB given
FBackgroundColor := TempColor;
end;
end
else
FErrorMessage := 'Invalid value for background color parameter: ' + Value;
end
else if Param = '-f' then
begin
if ValLower = 'b1' then
FForcedOutputFormat := ifBinary
else if ValLower = 'g8' then
FForcedOutputFormat := ifGray8
else if ValLower = 'rgb24' then
FForcedOutputFormat := ifR8G8B8
else if ValLower = 'rgba32' then
FForcedOutputFormat := ifA8R8G8B8
else
FErrorMessage := 'Invalid value for format parameter: ' + Value;
end
else if Param = '-q' then
begin
if ValLower = 'nearest' then
FResamplingFilter := rfNearest
else if ValLower = 'linear' then
FResamplingFilter := rfLinear
else if ValLower = 'cubic' then
FResamplingFilter := rfCubic
else if ValLower = 'lanczos' then
FResamplingFilter := rfLanczos
else
FErrorMessage := 'Invalid value for resampling filter parameter: ' + Value;
end
else if Param = '-g' then
begin
if Pos('c', ValLower) > 0 then
Include(FOperationalFlags, ofAutoCrop);
if Pos('d', ValLower) > 0 then
Include(FOperationalFlags, ofDetectOnly);
end
else if Param = '-s' then
begin
if Pos('s', ValLower) > 0 then
FShowStats := True;
if Pos('p', ValLower) > 0 then
FShowParams := True;
if Pos('t', ValLower) > 0 then
FShowTimings := True;
end
else if Param = '-r' then
begin
StrArray := SplitString(ValLower, ',');
if Length(StrArray) = 4 then
begin
FContentRect.Left := StrToInt(StrArray[0]);
FContentRect.Top := StrToInt(StrArray[1]);
FContentRect.Right := StrToInt(StrArray[2]);
FContentRect.Bottom := StrToInt(StrArray[3]);
end;
end
else if Param = '-c' then
begin
StrArray := SplitString(ValLower, ',');
for I := 0 to High(StrArray) do
begin
S := StrArray[I];
if Pos('t', S) = 1 then
begin
S := Copy(S, 2);
FTiffCompressionScheme := -1;
for J := Low(TiffCompressionNames) to High(TiffCompressionNames) do
begin
if S = TiffCompressionNames[J] then
begin
FTiffCompressionScheme := J;
Break;
end;
end;
if FTiffCompressionScheme = -1 then
begin
FErrorMessage := 'Invalid TIFF output compression spec: ' + S;
Exit(False);
end;
end
else if Pos('j', S) = 1 then
begin
S := Copy(S, 2);
if not TryStrToInt(S,FJpegCompressionQuality) then
begin
FErrorMessage := 'Invalid JPEG output compression spec: ' + S;
Exit(False);
end;
end
else
begin
FErrorMessage := 'Invalid output compression parameter: ' + S;
Exit(False);
end;
end;
end
else
begin
FErrorMessage := 'Unknown parameter: ' + Param;
end;
if FErrorMessage <> '' then
Result := False;
end;
begin
Result := True;
I := 1;
while I <= ParamCount do
begin
Param := ParamStr(I);
if Pos('-', Param) = 1 then
begin
Arg := ParamStr(I + 1);
Inc(I);
if not CheckParam(Param, Arg) then
begin
Result := False;
Exit;
end;
end
else
FInputFile := Param;
Inc(I);
end;
if FInputFile = '' then
FErrorMessage := 'No input file given';
end;
function TCmdLineOptions.OptionsToString: string;
var
I: Integer;
CompJpegStr, CompTiffStr, FilterStr, CmdParams: string;
begin
CmdParams := '';
for I := 1 to ParamCount do
CmdParams := CmdParams + ParamStr(I) + ' ';
FilterStr := LowerCase(Copy(TypInfo.GetEnumName(TypeInfo(TResamplingFilter), Integer(FResamplingFilter)), 3));
CompJpegStr := Iff(JpegCompressionQuality = -1, 'default', IntToStr(JpegCompressionQuality));
CompTiffStr := 'default';
if TiffCompressionScheme >= 0 then
CompTiffStr := TiffCompressionNames[TiffCompressionScheme];
Result :=
'Parameters: ' + CmdParams + sLineBreak +
' input file = ' + InputFile + sLineBreak +
' output file = ' + OutputFile + sLineBreak +
' max angle = ' + FloatToStr(MaxAngle) + sLineBreak +
' background color = ' + IntToHex(BackgroundColor, 8) + sLineBreak +
' resampling filter = ' + FilterStr + sLineBreak +
' thresholding method = ' + Iff(ThresholdingMethod = tmExplicit, 'explicit', 'auto otsu') + sLineBreak +
' threshold level = ' + IntToStr(ThresholdLevel) + sLineBreak +
' content rect = ' + Format('%d,%d,%d,%d', [ContentRect.Left, ContentRect.Top, ContentRect.Right, ContentRect.Bottom]) + sLineBreak +
' output format = ' + Iff(ForcedOutputFormat = ifUnknown, 'default', Imaging.GetFormatName(ForcedOutputFormat)) + sLineBreak +
' skip angle = ' + FloatToStr(SkipAngle) + sLineBreak +
' oper flags = ' + Iff(ofAutoCrop in FOperationalFlags, 'auto-crop ', '') + Iff(ofDetectOnly in FOperationalFlags, 'detect-only ', '') + sLineBreak +
' show info = ' + Iff(ShowParams, 'params ', '') + Iff(ShowStats, 'stats ', '') + Iff(ShowTimings, 'timings ', '') + sLineBreak +
' output compression = jpeg:' + CompJpegStr + ' tiff:' + CompTiffStr + sLineBreak;
end;
end.