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//proc/self/root/usr/include/magick/quantum.h
/* Copyright 1999-2006 ImageMagick Studio LLC, a non-profit organization dedicated to making software imaging solutions freely available. You may not use this file except in compliance with the License. obtain a copy of the License at http://www.imagemagick.org/script/license.php Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. MagickCore quantum inline methods. */ #ifndef _MAGICKCORE_QUANTUM_H #define _MAGICKCORE_QUANTUM_H #if defined(__cplusplus) || defined(c_plusplus) extern "C" { #endif #include "magick/semaphore.h" typedef enum { UndefinedQuantum, AlphaQuantum, BlackQuantum, BlueQuantum, CMYKAQuantum, CMYKQuantum, CyanQuantum, GrayAlphaQuantum, GrayQuantum, GreenQuantum, IndexAlphaQuantum, IndexQuantum, MagentaQuantum, OpacityQuantum, RedQuantum, RGBAQuantum, RGBOQuantum, RGBQuantum, YellowQuantum, GrayPadQuantum, RGBPadQuantum } QuantumType; typedef enum { UndefinedQuantumFormat, FloatingPointQuantumFormat, SignedQuantumFormat, UnsignedQuantumFormat } QuantumFormatType; typedef struct _QuantumInfo { QuantumFormatType format; double minimum, maximum, scale; size_t pad; SemaphoreInfo *semaphore; unsigned long signature; } QuantumInfo; static inline unsigned short RoundToMap(const MagickRealType value) { if (value < 0.0) return(0UL); if (value >= (MagickRealType) MaxMap) return((unsigned short) MaxMap); return((unsigned short) (value+0.5)); } static inline Quantum RoundToQuantum(const MagickRealType value) { if (value < 0.0) return(0); if (value >= (MagickRealType) QuantumRange) return(QuantumRange); return((Quantum) (value+0.5)); } static inline Quantum ScaleAnyToQuantum(const unsigned long x, const unsigned long scale) { return((Quantum) (((MagickRealType) QuantumRange*x)/scale+0.5)); } static inline unsigned long ScaleQuantumToAny(const Quantum x, const unsigned long scale) { return((unsigned long) (((MagickRealType) scale*x)/QuantumRange+0.5)); } #if (QuantumDepth == 8) static inline Quantum ScaleCharToQuantum(const unsigned char value) { return((Quantum) value); } static inline Quantum ScaleLongToQuantum(const unsigned long value) { return((Quantum) (value/16843009UL)); } static inline Quantum ScaleMapToQuantum(const unsigned long value) { return((Quantum) value); } static inline unsigned long ScaleQuantum(const unsigned long quantum) { return((unsigned long) quantum); } static inline unsigned char ScaleQuantumToChar(const Quantum quantum) { return((unsigned char) quantum); } static inline unsigned long ScaleQuantumToLong(const Quantum quantum) { return(16843009UL*quantum); } static inline unsigned long ScaleQuantumToMap(const Quantum quantum) { return((unsigned long) quantum); } static inline unsigned short ScaleQuantumToShort(const Quantum quantum) { return((unsigned short) (257*quantum)); } static inline Quantum ScaleShortToQuantum(const unsigned short value) { return((Quantum) (value/257)); } static inline unsigned long ScaleToQuantum(const unsigned long value) { return((unsigned long) value); } #elif (QuantumDepth == 16) static inline Quantum ScaleCharToQuantum(const unsigned char value) { return((Quantum) (257*value)); } static inline Quantum ScaleLongToQuantum(const unsigned long value) { return((Quantum) (value/65537UL)); } static inline Quantum ScaleMapToQuantum(const unsigned long value) { return((Quantum) value); } static inline unsigned long ScaleQuantum(const unsigned long quantum) { return(quantum/257UL); } static inline unsigned char ScaleQuantumToChar(const Quantum quantum) { return((unsigned char) (quantum/257UL)); } static inline unsigned long ScaleQuantumToLong(const Quantum quantum) { return(65537UL*quantum); } static inline unsigned long ScaleQuantumToMap(const Quantum quantum) { return((unsigned long) quantum); } static inline unsigned short ScaleQuantumToShort(const Quantum quantum) { return((unsigned short) quantum); } static inline Quantum ScaleShortToQuantum(const unsigned short value) { return((Quantum) value); } static inline unsigned long ScaleToQuantum(const unsigned long value) { return(257UL*value); } #elif (QuantumDepth == 32) static inline Quantum ScaleCharToQuantum(const unsigned char value) { return((Quantum) (16843009UL*value)); } static inline Quantum ScaleLongToQuantum(const unsigned long value) { return((Quantum) value); } static inline Quantum ScaleMapToQuantum(const unsigned long value) { return((Quantum) (65537UL*value)); } static inline unsigned long ScaleQuantum(const unsigned long quantum) { return((unsigned long) (quantum/16843009UL)); } static inline unsigned char ScaleQuantumToChar(const Quantum quantum) { return((unsigned char) (quantum/16843009UL)); } static inline unsigned long ScaleQuantumToLong(const Quantum quantum) { return((unsigned long) quantum); } static inline unsigned long ScaleQuantumToMap(const Quantum quantum) { return((unsigned long) (quantum/65537UL)); } static inline unsigned short ScaleQuantumToShort(const Quantum quantum) { return((unsigned short) (quantum/65537UL)); } static inline Quantum ScaleShortToQuantum(const unsigned short value) { return((Quantum) (65537UL*value)); } static inline unsigned long ScaleToQuantum(const unsigned long value) { return((unsigned long) (16843009UL*value)); } #elif (QuantumDepth == 64) static inline Quantum ScaleCharToQuantum(const unsigned char value) { return((Quantum) (MagickULLConstant(71777214294589695)*value)); } static inline Quantum ScaleLongToQuantum(const unsigned long value) { return((Quantum) 4294967295UL*value); } static inline Quantum ScaleMapToQuantum(const unsigned long value) { return((Quantum) (MagickULLConstant(281479271612415)*value)); } static inline unsigned long ScaleQuantum(const unsigned long long quantum) { return((unsigned long) (quantum/MagickULLConstant(71777214294589695))); } static inline unsigned char ScaleQuantumToChar(const Quantum quantum) { return((unsigned char) (quantum/MagickULLConstant(71777214294589695)); } static inline unsigned long ScaleQuantumToLong(const Quantum quantum) { return((unsigned long) (quantum/MagickULLConstant(4294967297))); } static inline unsigned long ScaleQuantumToMap(const Quantum quantum) { return((unsigned long) (quantum/MagickULLConstant(281479271612415))); } static inline unsigned short ScaleQuantumToShort(const Quantum quantum) { return((unsigned short) (quantum/MagickULLConstant(281479271612415))); } static inline Quantum ScaleShortToQuantum(const unsigned short value) { return((Quantum) (MagickULLConstant(281479271612415)*value)); } static inline unsigned long long ScaleToQuantum(const unsigned long value) { return(MagickULLConstant(71777214294589695)*value); } #endif extern MagickExport MagickBooleanType ExportQuantumPixels(Image *,const QuantumInfo *,const QuantumType, const unsigned char *), ImportQuantumPixels(Image *,const QuantumInfo *,const QuantumType, unsigned char *); extern MagickExport QuantumInfo *AcquireQuantumInfo(const ImageInfo *), *DestroyQuantumInfo(QuantumInfo *); extern MagickExport void GetQuantumInfo(const ImageInfo *,QuantumInfo *); #if defined(__cplusplus) || defined(c_plusplus) } #endif #endif