// ************************************************************************ // ***************************** CEF4Delphi ******************************* // ************************************************************************ // // CEF4Delphi is based on DCEF3 which uses CEF3 to embed a chromium-based // browser in Delphi applications. // // The original license of DCEF3 still applies to CEF4Delphi. // // For more information about CEF4Delphi visit : // https://www.briskbard.com/index.php?lang=en&pageid=cef // // Copyright © 2017 Salvador Díaz Fau. All rights reserved. // // ************************************************************************ // ************ vvvv Original license and comments below vvvv ************* // ************************************************************************ (* * Delphi Chromium Embedded 3 * * Usage allowed under the restrictions of the Lesser GNU General Public License * or alternatively the restrictions of the Mozilla Public License 1.1 * * 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. * * Unit owner : Henri Gourvest * Web site : http://www.progdigy.com * Repository : http://code.google.com/p/delphichromiumembedded/ * Group : http://groups.google.com/group/delphichromiumembedded * * Embarcadero Technologies, Inc is not permitted to use or redistribute * this source code without explicit permission. * *) unit uCEFImage; {$IFNDEF CPUX64} {$ALIGN ON} {$MINENUMSIZE 4} {$ENDIF} interface uses WinApi.Windows, uCEFBase, uCEFInterfaces, uCEFTypes; type TCefImageRef = class(TCefBaseRef, ICefImage) protected function IsEmpty: Boolean; function IsSame(const that: ICefImage): Boolean; function AddBitmap(scaleFactor: Single; pixelWidth, pixelHeight: Integer; colorType: TCefColorType; alphaType: TCefAlphaType; pixelData: Pointer; pixelDataSize: NativeUInt): Boolean; function AddPng(scaleFactor: Single; const pngData: Pointer; pngDataSize: NativeUInt): Boolean; function AddJpeg(scaleFactor: Single; const jpegData: Pointer; jpegDataSize: NativeUInt): Boolean; function GetWidth: NativeUInt; function GetHeight: NativeUInt; function HasRepresentation(scaleFactor: Single): Boolean; function RemoveRepresentation(scaleFactor: Single): Boolean; function GetRepresentationInfo(scaleFactor: Single; actualScaleFactor: PSingle; pixelWidth, pixelHeight: PInteger): Boolean; function GetAsBitmap(scaleFactor: Single; colorType: TCefColorType; alphaType: TCefAlphaType; pixelWidth, pixelHeight: PInteger): ICefBinaryValue; function GetAsPng(scaleFactor: Single; withTransparency: Boolean; pixelWidth, pixelHeight: PInteger): ICefBinaryValue; function GetAsJpeg(scaleFactor: Single; quality: Integer; pixelWidth, pixelHeight: PInteger): ICefBinaryValue; public class function UnWrap(data: Pointer): ICefImage; class function New: ICefImage; end; implementation uses uCEFMiscFunctions, uCEFLibFunctions, uCEFBinaryValue; function TCefImageRef.AddBitmap(scaleFactor: Single; pixelWidth, pixelHeight: Integer; colorType: TCefColorType; alphaType: TCefAlphaType; pixelData: Pointer; pixelDataSize: NativeUInt): Boolean; begin Result := PCefImage(FData).add_bitmap(FData, scaleFactor, pixelWidth, pixelHeight, colorType, alphaType, pixelData, pixelDataSize) <> 0; end; function TCefImageRef.AddJpeg(scaleFactor: Single; const jpegData: Pointer; jpegDataSize: NativeUInt): Boolean; begin Result := PCefImage(FData).add_jpeg(FData, scaleFactor, jpegData, jpegDataSize) <> 0; end; function TCefImageRef.AddPng(scaleFactor: Single; const pngData: Pointer; pngDataSize: NativeUInt): Boolean; begin Result := PCefImage(FData).add_png(FData, scaleFactor, pngData, pngDataSize) <> 0; end; function TCefImageRef.GetAsBitmap(scaleFactor: Single; colorType: TCefColorType; alphaType: TCefAlphaType; pixelWidth, pixelHeight: PInteger): ICefBinaryValue; begin Result := TCefBinaryValueRef.UnWrap(PCefImage(FData).get_as_bitmap( FData, scaleFactor, colorType, alphaType, pixelWidth, pixelHeight)); end; function TCefImageRef.GetAsJpeg(scaleFactor: Single; quality: Integer; pixelWidth, pixelHeight: PInteger): ICefBinaryValue; begin Result := TCefBinaryValueRef.UnWrap(PCefImage(FData).get_as_jpeg( FData, scaleFactor, quality, pixelWidth, pixelHeight)); end; function TCefImageRef.GetAsPng(scaleFactor: Single; withTransparency: Boolean; pixelWidth, pixelHeight: PInteger): ICefBinaryValue; begin Result := TCefBinaryValueRef.UnWrap(PCefImage(FData).get_as_png( FData, scaleFactor, Ord(withTransparency), pixelWidth, pixelHeight)); end; function TCefImageRef.GetHeight: NativeUInt; begin Result := PCefImage(FData).get_height(FData); end; function TCefImageRef.GetRepresentationInfo(scaleFactor: Single; actualScaleFactor: PSingle; pixelWidth, pixelHeight: PInteger): Boolean; begin Result := PCefImage(FData).get_representation_info(FData, scaleFactor, actualScaleFactor, pixelWidth, pixelHeight) <> 0; end; function TCefImageRef.GetWidth: NativeUInt; begin Result := PCefImage(FData).get_width(FData); end; function TCefImageRef.HasRepresentation(scaleFactor: Single): Boolean; begin Result := PCefImage(FData).has_representation(FData, scaleFactor) <> 0; end; function TCefImageRef.IsEmpty: Boolean; begin Result := PCefImage(FData).is_empty(FData) <> 0; end; function TCefImageRef.IsSame(const that: ICefImage): Boolean; begin Result := PCefImage(FData).is_same(FData, CefGetData(that)) <> 0; end; class function TCefImageRef.New: ICefImage; begin Result := UnWrap(cef_image_create()); end; function TCefImageRef.RemoveRepresentation(scaleFactor: Single): Boolean; begin Result := PCefImage(FData).remove_representation(FData, scaleFactor) <> 0; end; class function TCefImageRef.UnWrap(data: Pointer): ICefImage; begin if data <> nil then Result := Create(data) as ICefImage else Result := nil; end; end.