/* * libeg/image.c * Image handling functions * * Copyright (c) 2006 Christoph Pfisterer * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the * distribution. * * * Neither the name of Christoph Pfisterer nor the names of the * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "libegint.h" #if defined(LODEPNG) #include "lodepng.h" #endif //LODEPNG #define MAX_FILE_SIZE (1024*1024*1024) #ifndef DEBUG_ALL #define DEBUG_IMG 1 #else #define DEBUG_IMG DEBUG_ALL #endif #if DEBUG_IMG == 0 #define DBG(...) #else #define DBG(...) DebugLog(DEBUG_IMG, __VA_ARGS__) #endif // // Basic image handling // EG_IMAGE * egCreateImage(IN INTN Width, IN INTN Height, IN BOOLEAN HasAlpha) { EG_IMAGE *NewImage; NewImage = (EG_IMAGE *) AllocatePool(sizeof(EG_IMAGE)); if (NewImage == NULL) return NULL; if (Width * Height == 0) { FreePool(NewImage); return NULL; } NewImage->PixelData = (EG_PIXEL *) AllocatePool((UINTN)(Width * Height * sizeof(EG_PIXEL))); if (NewImage->PixelData == NULL) { FreePool(NewImage); return NULL; } NewImage->Width = Width; NewImage->Height = Height; NewImage->HasAlpha = HasAlpha; return NewImage; } EG_IMAGE * egCreateFilledImage(IN INTN Width, IN INTN Height, IN BOOLEAN HasAlpha, IN EG_PIXEL *Color) { EG_IMAGE *NewImage; NewImage = egCreateImage(Width, Height, HasAlpha); if (NewImage == NULL) return NULL; egFillImage(NewImage, Color); return NewImage; } EG_IMAGE * egCopyImage(IN EG_IMAGE *Image) { EG_IMAGE *NewImage; if (!Image || (Image->Width * Image->Height) == 0) { return NULL; } NewImage = egCreateImage(Image->Width, Image->Height, Image->HasAlpha); if (NewImage == NULL) return NULL; CopyMem(NewImage->PixelData, Image->PixelData, (UINTN)(Image->Width * Image->Height * sizeof(EG_PIXEL))); return NewImage; } //Scaling functions EG_IMAGE * egCopyScaledImage(IN EG_IMAGE *OldImage, IN INTN Ratio) //will be N/16 { //(c)Slice 2012 BOOLEAN Grey = FALSE; EG_IMAGE *NewImage; INTN x, x0, x1, x2, y, y0, y1, y2; INTN NewH, NewW; EG_PIXEL *Dest; EG_PIXEL *Src; INTN OldW; if (Ratio < 0) { Ratio = -Ratio; Grey = TRUE; } if (!OldImage) { return NULL; } Src = OldImage->PixelData; OldW = OldImage->Width; NewW = (OldImage->Width * Ratio) >> 4; NewH = (OldImage->Height * Ratio) >> 4; if (Ratio == 16) { NewImage = egCopyImage(OldImage); } else { NewImage = egCreateImage(NewW, NewH, OldImage->HasAlpha); if (NewImage == NULL) return NULL; Dest = NewImage->PixelData; for (y = 0; y < NewH; y++) { y1 = (y << 4) / Ratio; y0 = ((y1 > 0)?(y1-1):y1) * OldW; y2 = ((y1 < (OldImage->Height - 1))?(y1+1):y1) * OldW; y1 *= OldW; for (x = 0; x < NewW; x++) { x1 = (x << 4) / Ratio; x0 = (x1 > 0)?(x1-1):x1; x2 = (x1 < (OldW - 1))?(x1+1):x1; Dest->b = (UINT8)(((INTN)Src[x1+y1].b * 2 + Src[x0+y1].b + Src[x2+y1].b + Src[x1+y0].b + Src[x1+y2].b) / 6); Dest->g = (UINT8)(((INTN)Src[x1+y1].g * 2 + Src[x0+y1].g + Src[x2+y1].g + Src[x1+y0].g + Src[x1+y2].g) / 6); Dest->r = (UINT8)(((INTN)Src[x1+y1].r * 2 + Src[x0+y1].r + Src[x2+y1].r + Src[x1+y0].r + Src[x1+y2].r) / 6); Dest->a = Src[x1+y1].a; Dest++; } } } if (Grey) { Dest = NewImage->PixelData; for (y = 0; y < NewH; y++) { for (x = 0; x < NewW; x++) { Dest->b = (UINT8)((INTN)((UINTN)Dest->b + (UINTN)Dest->g + (UINTN)Dest->r) / 3); Dest->g = Dest->r = Dest->b; Dest++; } } } return NewImage; } BOOLEAN BigDiff(UINT8 a, UINT8 b) { if (a > b) { if (!GlobalConfig.BackgroundDark) { return (a - b) > (UINT8)(0xFF - GlobalConfig.BackgroundSharp); } } else if (GlobalConfig.BackgroundDark) { return (b - a) > (UINT8)(0xFF - GlobalConfig.BackgroundSharp); } return 0; } //(c)Slice 2013 #define EDGE(P) \ do { \ if (BigDiff(a11.P, a10.P)) { \ if (!BigDiff(a11.P, a01.P) && !BigDiff(a11.P, a21.P)) { \ a10.P = a11.P; \ } else if (BigDiff(a11.P, a01.P)) { \ if ((dx + dy) < cell) { \ a11.P = a21.P = a12.P = (UINT8)((a10.P * (cell - dy + dx) + a01.P * (cell - dx + dy)) / (cell * 2)); \ } else { \ a10.P = a01.P = a11.P; \ } \ } else if (BigDiff(a11.P, a21.P)) { \ if (dx > dy) { \ a11.P = a01.P = a12.P = (UINT8)((a10.P * (cell * 2 - dy - dx) + a21.P * (dx + dy)) / (cell * 2)); \ }else { \ a10.P = a21.P = a11.P; \ } \ } \ } else if (BigDiff(a11.P, a21.P)) { \ if (!BigDiff(a11.P, a12.P)){ \ a21.P = a11.P; \ } else { \ if ((dx + dy) > cell) { \ a11.P = a01.P = a10.P = (UINT8)((a21.P * (cell + dx - dy) + a12.P * (cell - dx + dy)) / (cell * 2)); \ } else { \ a21.P = a12.P = a11.P; \ } \ } \ } else if (BigDiff(a11.P, a01.P)) { \ if (!BigDiff(a11.P, a12.P)){ \ a01.P = a11.P; \ } else { \ if (dx < dy) { \ a11.P = a21.P = a10.P = (UINT8)((a01.P * (cell * 2 - dx - dy) + a12.P * (dy + dx )) / (cell * 2)); \ } else { \ a01.P = a12.P = a11.P; \ } \ } \ } else if (BigDiff(a11.P, a12.P)) { \ a12.P = a11.P; \ } \ } while(0) #define SMOOTH(P) \ do { \ norm = (INTN)a01.P + a10.P + 4 * a11.P + a12.P + a21.P; \ if (norm == 0) { \ Dest->P = 0; \ } else { \ Dest->P = (UINT8)(a11.P * 2 * (a01.P * (cell - dx) + a10.P * (cell - dy) + \ a21.P * dx + a12.P * dy + a11.P * 2 * cell) / (cell * norm)); \ } \ } while(0) #define SMOOTH2(P) \ do { \ Dest->P = (UINT8)((a01.P * (cell - dx) * 3 + a10.P * (cell - dy) * 3 + \ a21.P * dx * 3 + a12.P * dy * 3 + a11.P * 2 * cell) / (cell * 8)); \ } while(0) VOID ScaleImage(OUT EG_IMAGE *NewImage, IN EG_IMAGE *OldImage) { INTN W1, W2, H1, H2, i, j, f, cell; INTN x, dx, y, y1, dy; //, norm; EG_PIXEL a10, a11, a12, a01, a21; EG_PIXEL *Src = OldImage->PixelData; EG_PIXEL *Dest = NewImage->PixelData; W1 = OldImage->Width; H1 = OldImage->Height; W2 = NewImage->Width; H2 = NewImage->Height; if (H1 * W2 < H2 * W1) { f = (H2 << 12) / H1; } else { f = (W2 << 12) / W1; } if (f == 0) return; cell = ((f - 1) >> 12) + 1; for (j = 0; j < H2; j++) { y = (j << 12) / f; y1 = y * W1; dy = j - ((y * f) >> 12); for (i = 0; i < W2; i++) { x = (i << 12) / f; dx = i - ((x * f) >> 12); a11 = Src[x + y1]; a10 = (y == 0)?a11: Src[x + y1 - W1]; a01 = (x == 0)?a11: Src[x + y1 - 1]; a21 = (x >= W1)?a11: Src[x + y1 + 1]; a12 = (y >= H1)?a11: Src[x + y1 + W1]; if (a11.a == 0) { Dest->r = Dest->g = Dest->b = 0x55; } else { EDGE(r); EDGE(g); EDGE(b); SMOOTH2(r); SMOOTH2(g); SMOOTH2(b); } Dest->a = 0xFF; Dest++; } } } // VOID egFreeImage(IN EG_IMAGE *Image) { if (Image != NULL) { if (Image->PixelData != NULL) { FreePool(Image->PixelData); Image->PixelData = NULL; //FreePool will not zero pointer } FreePool(Image); } } // // Basic file operations // EFI_STATUS egLoadFile(IN EFI_FILE_HANDLE BaseDir, IN CONST CHAR16 *FileName, OUT UINT8 **FileData, OUT UINTN *FileDataLength) { EFI_STATUS Status = EFI_NOT_FOUND; EFI_FILE_HANDLE FileHandle = 0; EFI_FILE_INFO *FileInfo; UINT64 ReadSize; UINTN BufferSize; UINT8 *Buffer; if (!BaseDir) { goto Error; } Status = BaseDir->Open(BaseDir, &FileHandle, (CHAR16*)FileName, EFI_FILE_MODE_READ, 0); // const missing in EFI_FILE_HANDLE->Open if (EFI_ERROR(Status) || !FileHandle) { goto Error; } FileInfo = EfiLibFileInfo(FileHandle); if (FileInfo == NULL) { FileHandle->Close(FileHandle); goto Error; } ReadSize = FileInfo->FileSize; if (ReadSize > MAX_FILE_SIZE) ReadSize = MAX_FILE_SIZE; FreePool(FileInfo); BufferSize = (UINTN)ReadSize; // was limited to 1 GB above, so this is safe Buffer = (UINT8 *) AllocatePool (BufferSize); if (Buffer == NULL) { FileHandle->Close(FileHandle); Status = EFI_OUT_OF_RESOURCES; goto Error; } Status = FileHandle->Read(FileHandle, &BufferSize, Buffer); FileHandle->Close(FileHandle); if (EFI_ERROR(Status)) { FreePool(Buffer); goto Error; } if(FileData) { *FileData = Buffer; } if (FileDataLength) { *FileDataLength = BufferSize; } return Status; Error: if (FileData) { *FileData = NULL; } if (FileDataLength) { *FileDataLength = 0; } return Status; } //Slice - this is gEfiPartTypeSystemPartGuid //static EFI_GUID ESPGuid = { 0xc12a7328, 0xf81f, 0x11d2, { 0xba, 0x4b, 0x00, 0xa0, 0xc9, 0x3e, 0xc9, 0x3b } }; //there is assumed only one ESP partition. What if there are two HDD gpt formatted? EFI_STATUS egFindESP(OUT EFI_FILE_HANDLE *RootDir) { EFI_STATUS Status; UINTN HandleCount = 0; EFI_HANDLE *Handles; Status = gBS->LocateHandleBuffer(ByProtocol, &gEfiPartTypeSystemPartGuid, NULL, &HandleCount, &Handles); if (!EFI_ERROR(Status) && HandleCount > 0) { *RootDir = EfiLibOpenRoot(Handles[0]); if (*RootDir == NULL) Status = EFI_NOT_FOUND; FreePool(Handles); } return Status; } //if (NULL, ...) then save to EFI partition EFI_STATUS egSaveFile(IN EFI_FILE_HANDLE BaseDir OPTIONAL, IN CONST CHAR16 *FileName, IN CONST VOID *FileData, IN UINTN FileDataLength) { EFI_STATUS Status; EFI_FILE_HANDLE FileHandle; UINTN BufferSize; BOOLEAN CreateNew = TRUE; CONST CHAR16 *p = FileName + StrLen(FileName); CHAR16 DirName[256]; UINTN dirNameLen; if (BaseDir == NULL) { Status = egFindESP(&BaseDir); if (EFI_ERROR(Status)) { DBG("no ESP %r\n", Status); return Status; } } // syscl - make directory if not exist while (*p != L'\\' && p >= FileName) { // find the first '\\' traverse from the end to head of FileName p -= 1; } dirNameLen = p - FileName; StrnCpy(DirName, FileName, dirNameLen); Status = BaseDir->Open(BaseDir, &FileHandle, DirName, EFI_FILE_MODE_READ | EFI_FILE_MODE_WRITE, EFI_FILE_DIRECTORY); if (EFI_ERROR(Status)) { // make dir // DBG("no dir %r\n", Status); Status = BaseDir->Open(BaseDir, &FileHandle, DirName, EFI_FILE_MODE_READ | EFI_FILE_MODE_WRITE | EFI_FILE_MODE_CREATE, EFI_FILE_DIRECTORY); // DBG("cant make dir %r\n", Status); } // end of folder checking // Delete existing file if it exists Status = BaseDir->Open(BaseDir, &FileHandle, FileName, EFI_FILE_MODE_READ | EFI_FILE_MODE_WRITE, 0); if (!EFI_ERROR(Status)) { Status = FileHandle->Delete(FileHandle); if (Status == EFI_WARN_DELETE_FAILURE) { //This is READ_ONLY file system CreateNew = FALSE; // will write into existing file // DBG("RO FS %r\n", Status); } } if (CreateNew) { // Write new file Status = BaseDir->Open(BaseDir, &FileHandle, FileName, EFI_FILE_MODE_READ | EFI_FILE_MODE_WRITE | EFI_FILE_MODE_CREATE, 0); if (EFI_ERROR(Status)) { // DBG("no write %r\n", Status); return Status; } } else { //to write into existing file we must sure it size larger then our data EFI_FILE_INFO *Info = EfiLibFileInfo(FileHandle); if (Info) { if (Info->FileSize < FileDataLength) { // DBG("no old file %r\n", Status); return EFI_NOT_FOUND; } FreePool(Info); } } if (!FileHandle) { // DBG("no FileHandle %r\n", Status); return EFI_DEVICE_ERROR; } BufferSize = FileDataLength; Status = FileHandle->Write(FileHandle, &BufferSize, (VOID*)FileData); // CONST missing in EFI_FILE_HANDLE->write FileHandle->Close(FileHandle); // DBG("not written %r\n", Status); return Status; } EFI_STATUS egMkDir(IN EFI_FILE_HANDLE BaseDir OPTIONAL, IN CHAR16 *DirName) { EFI_STATUS Status; EFI_FILE_HANDLE FileHandle; //DBG("Looking up dir assets (%s):", DirName); if (BaseDir == NULL) { Status = egFindESP(&BaseDir); if (EFI_ERROR(Status)) { //DBG(" %r\n", Status); return Status; } } Status = BaseDir->Open(BaseDir, &FileHandle, DirName, EFI_FILE_MODE_READ | EFI_FILE_MODE_WRITE, EFI_FILE_DIRECTORY); if (EFI_ERROR(Status)) { // Write new dir //DBG("%r, attempt to create one:", Status); Status = BaseDir->Open(BaseDir, &FileHandle, DirName, EFI_FILE_MODE_READ | EFI_FILE_MODE_WRITE | EFI_FILE_MODE_CREATE, EFI_FILE_DIRECTORY); } //DBG(" %r\n", Status); return Status; } //caller is responsible for free image EG_IMAGE * egLoadImage(IN EFI_FILE_HANDLE BaseDir, IN CONST CHAR16 *FileName, IN BOOLEAN WantAlpha) { EFI_STATUS Status; UINT8 *FileData = NULL; UINTN FileDataLength = 0; EG_IMAGE *NewImage; if (GlobalConfig.TypeSVG) { return NULL; } if (BaseDir == NULL || FileName == NULL) return NULL; // load file Status = egLoadFile(BaseDir, FileName, &FileData, &FileDataLength); if (EFI_ERROR(Status)) return NULL; // decode it NewImage = egDecodePNG(FileData, FileDataLength, WantAlpha); if (!NewImage) { DBG("%s not decoded\n", FileName); } FreePool(FileData); return NewImage; } //caller is responsible for free image EG_IMAGE * egLoadIcon(IN EFI_FILE_HANDLE BaseDir, IN CONST CHAR16 *FileName, IN UINTN IconSize) { EFI_STATUS Status; UINT8 *FileData; UINTN FileDataLength; EG_IMAGE *NewImage; CHAR8 *IconName; if (!BaseDir || !FileName) { return NULL; } if (GlobalConfig.TypeSVG) { INTN i = 0; UINTN Size; CONST CHAR16 *ptr = StrStr(FileName, L"\\"); if (!ptr) { ptr = FileName; } else { ptr++; } CONST CHAR16 *ptr2 = StrStr(ptr, L"."); Size = ptr2 - ptr + 2; IconName = (__typeof__(IconName))AllocateZeroPool(Size); UnicodeStrToAsciiStrS(ptr, IconName, Size - 1); while (OSIconsTable[i].name) { if (AsciiStrCmp(OSIconsTable[i].name, IconName) == 0) { // DBG("theme defined %a\n", IconName); // DBG(" icon size=[%d,%d]\n", OSIconsTable[i].image->Width, OSIconsTable[i].image->Height); FreePool(IconName); return OSIconsTable[i].image; } i++; } FreePool(IconName); return NULL; } // load file Status = egLoadFile(BaseDir, FileName, &FileData, &FileDataLength); if (EFI_ERROR(Status)) { return NULL; } // decode it NewImage = egDecodePNG(FileData, FileDataLength, TRUE); if (!NewImage) { NewImage = egDecodeICNS(FileData, FileDataLength, IconSize, TRUE); } FreePool(FileData); return NewImage; } // // Compositing // VOID egRestrictImageArea(IN EG_IMAGE *Image, IN INTN AreaPosX, IN INTN AreaPosY, IN OUT INTN *AreaWidth, IN OUT INTN *AreaHeight) { if (!Image || !AreaWidth || !AreaHeight) { return; } if (AreaPosX >= Image->Width || AreaPosY >= Image->Height) { // out of bounds, operation has no effect *AreaWidth = 0; *AreaHeight = 0; } else { // calculate affected area if (*AreaWidth > Image->Width - AreaPosX) *AreaWidth = Image->Width - AreaPosX; if (*AreaHeight > Image->Height - AreaPosY) *AreaHeight = Image->Height - AreaPosY; } } VOID egFillImage(IN OUT EG_IMAGE *CompImage, IN EG_PIXEL *Color) { INTN i; EG_PIXEL FillColor; EG_PIXEL *PixelPtr; if (!CompImage || !Color) { return; } FillColor = *Color; if (!CompImage->HasAlpha) FillColor.a = 0; PixelPtr = CompImage->PixelData; for (i = 0; i < CompImage->Width * CompImage->Height; i++) { *PixelPtr++ = FillColor; } } VOID egFillImageArea(IN OUT EG_IMAGE *CompImage, IN INTN AreaPosX, IN INTN AreaPosY, IN INTN AreaWidth, IN INTN AreaHeight, IN EG_PIXEL *Color) { INTN x, y; INTN xAreaWidth = AreaWidth; INTN xAreaHeight = AreaHeight; EG_PIXEL FillColor; EG_PIXEL *PixelBasePtr; if (!CompImage || !Color) { return; } egRestrictImageArea(CompImage, AreaPosX, AreaPosY, &xAreaWidth, &xAreaHeight); if (xAreaWidth > 0) { FillColor = *Color; if (!CompImage->HasAlpha) FillColor.a = 0; PixelBasePtr = CompImage->PixelData + AreaPosY * CompImage->Width + AreaPosX; for (y = 0; y < xAreaHeight; y++) { EG_PIXEL *PixelPtr = PixelBasePtr; for (x = 0; x < xAreaWidth; x++) { *PixelPtr++ = FillColor; } PixelBasePtr += CompImage->Width; } } } VOID egRawCopy(IN OUT EG_PIXEL *CompBasePtr, IN EG_PIXEL *TopBasePtr, IN INTN Width, IN INTN Height, IN INTN CompLineOffset, IN INTN TopLineOffset) { INTN x, y; if (!CompBasePtr || !TopBasePtr) { return; } for (y = 0; y < Height; y++) { EG_PIXEL *TopPtr = TopBasePtr; EG_PIXEL *CompPtr = CompBasePtr; for (x = 0; x < Width; x++) { *CompPtr = *TopPtr; TopPtr++, CompPtr++; } TopBasePtr += TopLineOffset; CompBasePtr += CompLineOffset; } } VOID egRawCompose(IN OUT EG_PIXEL *CompBasePtr, IN EG_PIXEL *TopBasePtr, IN INTN Width, IN INTN Height, IN INTN CompLineOffset, IN INTN TopLineOffset) { INT64 x, y; EG_PIXEL *TopPtr, *CompPtr; //To make native division we need INTN types INTN TopAlpha; INTN Alpha; INTN CompAlpha; INTN RevAlpha; INTN TempAlpha; // EG_PIXEL *CompUp; if (!CompBasePtr || !TopBasePtr) { return; } // CompUp = CompBasePtr + Width * Height; //Slice - my opinion //if TopAlpha=255 then draw Top - non transparent //else if TopAlpha=0 then draw Comp - full transparent //else draw mixture |-----comp---|--top--| //final alpha =(1-(1-x)*(1-y)) =(255*255-(255-topA)*(255-compA))/255 for (y = 0; y < Height; y++) { TopPtr = TopBasePtr; CompPtr = CompBasePtr; for (x = 0; x < Width; x++) { TopAlpha = TopPtr->a & 0xFF; //exclude sign if (TopAlpha == 255) { CompPtr->b = TopPtr->b; CompPtr->g = TopPtr->g; CompPtr->r = TopPtr->r; CompPtr->a = (UINT8)TopAlpha; } else if (TopAlpha != 0) { CompAlpha = CompPtr->a & 0xFF; RevAlpha = 255 - TopAlpha; TempAlpha = CompAlpha * RevAlpha; TopAlpha *= 255; Alpha = TopAlpha + TempAlpha; CompPtr->b = (UINT8)((TopPtr->b * TopAlpha + CompPtr->b * TempAlpha) / Alpha); CompPtr->g = (UINT8)((TopPtr->g * TopAlpha + CompPtr->g * TempAlpha) / Alpha); CompPtr->r = (UINT8)((TopPtr->r * TopAlpha + CompPtr->r * TempAlpha) / Alpha); CompPtr->a = (UINT8)(Alpha / 255); } TopPtr++, CompPtr++; } TopBasePtr += TopLineOffset; CompBasePtr += CompLineOffset; } } // This is simplified image composing on solid background. egComposeImage will decide which method to use VOID egRawComposeOnFlat(IN OUT EG_PIXEL *CompBasePtr, IN EG_PIXEL *TopBasePtr, IN INTN Width, IN INTN Height, IN INTN CompLineOffset, IN INTN TopLineOffset) { INT64 x, y; EG_PIXEL *TopPtr, *CompPtr; UINT32 TopAlpha; UINT32 RevAlpha; UINTN Temp; if (!CompBasePtr || !TopBasePtr) { return; } for (y = 0; y < Height; y++) { TopPtr = TopBasePtr; CompPtr = CompBasePtr; for (x = 0; x < Width; x++) { TopAlpha = TopPtr->a; RevAlpha = 255 - TopAlpha; Temp = ((UINT8)CompPtr->b * RevAlpha) + ((UINT8)TopPtr->b * TopAlpha); CompPtr->b = (UINT8)(Temp / 255); Temp = ((UINT8)CompPtr->g * RevAlpha) + ((UINT8)TopPtr->g * TopAlpha); CompPtr->g = (UINT8)(Temp / 255); Temp = ((UINT8)CompPtr->r * RevAlpha) + ((UINT8)TopPtr->r * TopAlpha); CompPtr->r = (UINT8)(Temp / 255); CompPtr->a = (UINT8)(255); TopPtr++, CompPtr++; } TopBasePtr += TopLineOffset; CompBasePtr += CompLineOffset; } } VOID egComposeImage(IN OUT EG_IMAGE *CompImage, IN EG_IMAGE *TopImage, IN INTN PosX, IN INTN PosY) { INTN CompWidth, CompHeight; if (!TopImage || !CompImage) { return; } CompWidth = TopImage->Width; CompHeight = TopImage->Height; egRestrictImageArea(CompImage, PosX, PosY, &CompWidth, &CompHeight); // compose if (CompWidth > 0) { if (CompImage->HasAlpha && !BackgroundImage) { CompImage->HasAlpha = FALSE; } if (TopImage->HasAlpha) { if (CompImage->HasAlpha) { //aaaa egRawCompose(CompImage->PixelData + PosY * CompImage->Width + PosX, TopImage->PixelData, CompWidth, CompHeight, CompImage->Width, TopImage->Width); } else { egRawComposeOnFlat(CompImage->PixelData + PosY * CompImage->Width + PosX, TopImage->PixelData, CompWidth, CompHeight, CompImage->Width, TopImage->Width); } } else { egRawCopy(CompImage->PixelData + PosY * CompImage->Width + PosX, TopImage->PixelData, CompWidth, CompHeight, CompImage->Width, TopImage->Width); } } } EG_IMAGE * egEnsureImageSize(IN EG_IMAGE *Image, IN INTN Width, IN INTN Height, IN EG_PIXEL *Color) { EG_IMAGE *NewImage; if (Image == NULL) return NULL; if (Image->Width == Width && Image->Height == Height) return Image; NewImage = egCreateFilledImage(Width, Height, Image->HasAlpha, Color); if (NewImage == NULL) { egFreeImage(Image); return NULL; } egComposeImage(NewImage, Image, 0, 0); egFreeImage(Image); return NewImage; } // // misc internal functions // VOID egInsertPlane(IN UINT8 *SrcDataPtr, IN UINT8 *DestPlanePtr, IN UINTN PixelCount) { UINTN i; if (!SrcDataPtr || !DestPlanePtr) { return; } for (i = 0; i < PixelCount; i++) { *DestPlanePtr = *SrcDataPtr++; DestPlanePtr += 4; } } VOID egSetPlane(IN UINT8 *DestPlanePtr, IN UINT8 Value, IN UINT64 PixelCount) { UINT64 i; if (!DestPlanePtr) { return; } for (i = 0; i < PixelCount; i++) { *DestPlanePtr = Value; DestPlanePtr += 4; } } VOID egCopyPlane(IN UINT8 *SrcPlanePtr, IN UINT8 *DestPlanePtr, IN UINTN PixelCount) { UINTN i; if (!SrcPlanePtr || !DestPlanePtr) { return; } for (i = 0; i < PixelCount; i++) { *DestPlanePtr = *SrcPlanePtr; DestPlanePtr += 4, SrcPlanePtr += 4; } } #if defined(LODEPNG) EG_IMAGE * egDecodePNG(IN UINT8 *FileData, IN UINTN FileDataLength, IN BOOLEAN WantAlpha) { EG_IMAGE *NewImage = NULL; UINTN Error, i, ImageSize, Width, Height; EG_PIXEL *PixelData; EG_PIXEL *Pixel, *PixelD; Error = eglodepng_decode((UINT8**) &PixelData, &Width, &Height, (CONST UINT8*) FileData, (UINTN) FileDataLength); if (Error) { /* * Error 28 incorrect PNG signature ok, because also called on ICNS files */ if (Error != 28U) { DBG("egDecodePNG(%p, %lu, %c): eglodepng_decode failed with error %lu\n", FileData, FileDataLength, WantAlpha?'Y':'N', Error); } return NULL; } if (!PixelData || Width > 4096U || Height > 4096U) { DBG("egDecodePNG(%p, %lu, %c): eglodepng_decode returned suspect values, PixelData %p, Width %lu, Height %lu\n", FileData, FileDataLength, WantAlpha?'Y':'N', PixelData, Width, Height); } NewImage = egCreateImage(Width, Height, WantAlpha); if (NewImage == NULL) return NULL; ImageSize = (Width * Height); // CopyMem(NewImage->PixelData, PixelData, sizeof(EG_PIXEL) * ImageSize); // lodepng_free(PixelData); Pixel = (EG_PIXEL*)NewImage->PixelData; PixelD = PixelData; for (i = 0; i < ImageSize; i++) { /* UINT8 Temp; Temp = Pixel->b; Pixel->b = Pixel->r; Pixel->r = Temp; */ Pixel->b = PixelD->r; //change r <-> b Pixel->r = PixelD->b; Pixel->g = PixelD->g; Pixel->a = PixelD->a; // 255 is opaque, 0 - transparent Pixel++; PixelD++; } lodepng_free(PixelData); return NewImage; } #endif //LODEPNG /* EOF */