--- parser3/src/classes/image.C	2001/04/10 13:24:49	1.2
+++ parser3/src/classes/image.C	2003/11/20 16:34:23	1.99
@@ -1,275 +1,1285 @@
 /** @file
 	Parser: @b image parser class.
 
-	Copyright (c) 2001 ArtLebedev Group (http://www.artlebedev.com)
+	Copyright(c) 2001-2003 ArtLebedev Group (http://www.artlebedev.com)
+	Author: Alexandr Petrosian <paf@design.ru> (http://paf.design.ru)
+*/
 
-	Author: Alexander Petrosyan <paf@design.ru> (http://design.ru/paf)
+static const char * const IDENT_IMAGE_C="$Date: 2003/11/20 16:34:23 $";
 
-	$Id: image.C,v 1.2 2001/04/10 13:24:49 paf Exp $
+/*
+	jpegsize: gets the width and height (in pixels) of a jpeg file
+	Andrew Tong, werdna@ugcs.caltech.edu           February 14, 1995
+	modified slightly by alex@ed.ac.uk
+	and further still by rjray@uswest.com
+	optimization and general re-write from tmetro@vl.com
+	from perl by paf@design.ru
 */
 
 #include "pa_config_includes.h"
 
-#ifdef WIN32
-#	include "smtp/smtp.h"
-#endif
+#include "pa_vmethod_frame.h"
+
+#include "gif.h"
 
 #include "pa_common.h"
 #include "pa_request.h"
 #include "pa_vfile.h"
 #include "pa_vimage.h"
+#include "pa_vdate.h"
+#include "pa_table.h"
+
+// class
 
-// global var
+class MImage: public Methoded {
+public: // VStateless_class
+	Value* create_new_value(Pool&) { return new VImage(); }
 
-VStateless_class *image_class;
+public:
+	MImage();
+
+public: // Methoded
+	bool used_directly() { return true; }
+
+};
+
+// globals
+
+DECLARE_CLASS_VAR(image, new MImage, 0);
 
 // helpers
 
+/// value of exif tag -> it's value
+class EXIF_tag_value2name: public Hash<int, const char*> {
+public:
+	EXIF_tag_value2name() {
+	// image JPEG Exif
+		#define EXIF_TAG(tag, name) \
+			put(tag, #name);
+		// Tags used by IFD0 (main image)
+		EXIF_TAG(0x010e,	ImageDescription);
+		EXIF_TAG(0x010f,	Make);
+		EXIF_TAG(0x0110,	Model);
+		EXIF_TAG(0x0112,	Orientation);
+		EXIF_TAG(0x011a,	XResolution);
+		EXIF_TAG(0x011b,	YResolution);
+		EXIF_TAG(0x0128,	ResolutionUnit);
+		EXIF_TAG(0x0131,	Software);
+		EXIF_TAG(0x0132,	DateTime);
+		EXIF_TAG(0x013e,	WhitePoint);
+		EXIF_TAG(0x013f,	PrimaryChromaticities);
+		EXIF_TAG(0x0211,	YCbCrCoefficients);
+		EXIF_TAG(0x0213,	YCbCrPositioning);
+		EXIF_TAG(0x0214,	ReferenceBlackWhite);
+		EXIF_TAG(0x8298,	Copyright);
+		EXIF_TAG(0x8769,	ExifOffset);
+		// Tags used by Exif SubIFD
+		EXIF_TAG(0x829a,	ExposureTime);
+		EXIF_TAG(0x829d,	FNumber);
+		EXIF_TAG(0x8822,	ExposureProgram);
+		EXIF_TAG(0x8827,	ISOSpeedRatings);
+		EXIF_TAG(0x9000,	ExifVersion);
+		EXIF_TAG(0x9003,	DateTimeOriginal);
+		EXIF_TAG(0x9004,	DateTimeDigitized);
+		EXIF_TAG(0x9101,	ComponentsConfiguration);
+		EXIF_TAG(0x9102,	CompressedBitsPerPixel);
+		EXIF_TAG(0x9201,	ShutterSpeedValue);
+		EXIF_TAG(0x9202,	ApertureValue);
+		EXIF_TAG(0x9203,	BrightnessValue);
+		EXIF_TAG(0x9204,	ExposureBiasValue);
+		EXIF_TAG(0x9205,	MaxApertureValue);
+		EXIF_TAG(0x9206,	SubjectDistance);
+		EXIF_TAG(0x9207,	MeteringMode);
+		EXIF_TAG(0x9208,	LightSource);
+		EXIF_TAG(0x9209,	Flash);
+		EXIF_TAG(0x920a,	FocalLength);
+		EXIF_TAG(0x927c,	MakerNote);
+		EXIF_TAG(0x9286,	UserComment);
+		EXIF_TAG(0x9290,	SubsecTime);
+		EXIF_TAG(0x9291,	SubsecTimeOriginal);
+		EXIF_TAG(0x9292,	SubsecTimeDigitized);
+		EXIF_TAG(0xa000,	FlashPixVersion);
+		EXIF_TAG(0xa001,	ColorSpace);
+		EXIF_TAG(0xa002,	ExifImageWidth);
+		EXIF_TAG(0xa003,	ExifImageHeight);
+		EXIF_TAG(0xa004,	RelatedSoundFile);
+		EXIF_TAG(0xa005,	ExifInteroperabilityOffset);
+		EXIF_TAG(0xa20e,	FocalPlaneXResolution);
+		EXIF_TAG(0xa20f,	FocalPlaneYResolution);
+		EXIF_TAG(0xa210,	FocalPlaneResolutionUnit);
+		EXIF_TAG(0xa215,	ExposureIndex);
+		EXIF_TAG(0xa217,	SensingMethod);
+		EXIF_TAG(0xa300,	FileSource);
+		EXIF_TAG(0xa301,	SceneType);
+		EXIF_TAG(0xa302,	CFAPattern);
+		// Misc Tags
+		EXIF_TAG(0x00fe,	NewSubfileType);
+		EXIF_TAG(0x00ff,	SubfileType);
+		EXIF_TAG(0x012d,	TransferFunction);
+		EXIF_TAG(0x013b,	Artist);
+		EXIF_TAG(0x013d,	Predictor);
+		EXIF_TAG(0x0142,	TileWidth);
+		EXIF_TAG(0x0143,	TileLength);
+		EXIF_TAG(0x0144,	TileOffsets);
+		EXIF_TAG(0x0145,	TileByteCounts);
+		EXIF_TAG(0x014a,	SubIFDs);
+		EXIF_TAG(0x015b,	JPEGTables);
+		EXIF_TAG(0x828d,	CFARepeatPatternDim);
+		EXIF_TAG(0x828e,	CFAPattern);
+		EXIF_TAG(0x828f,	BatteryLevel);
+		EXIF_TAG(0x83bb,	IPTC/NAA);
+		EXIF_TAG(0x8773,	InterColorProfile);
+		EXIF_TAG(0x8824,	SpectralSensitivity);
+		EXIF_TAG(0x8825,	GPSInfo);
+		EXIF_TAG(0x8828,	OECF);
+		EXIF_TAG(0x8829,	Interlace);
+		EXIF_TAG(0x882a,	TimeZoneOffset);
+		EXIF_TAG(0x882b,	SelfTimerMode);
+		EXIF_TAG(0x920b,	FlashEnergy);
+		EXIF_TAG(0x920c,	SpatialFrequencyResponse);
+		EXIF_TAG(0x920d,	Noise);
+		EXIF_TAG(0x9211,	ImageNumber);
+		EXIF_TAG(0x9212,	SecurityClassification);
+		EXIF_TAG(0x9213,	ImageHistory);
+		EXIF_TAG(0x9214,	SubjectLocation);
+		EXIF_TAG(0x9215,	ExposureIndex);
+		EXIF_TAG(0x9216,	TIFF/EPStandardID);
+		EXIF_TAG(0xa20b,	FlashEnergy);
+		EXIF_TAG(0xa20c,	SpatialFrequencyResponse);
+		EXIF_TAG(0xa214,	SubjectLocation);
+		#undef EXIF_TAG
+	}
+} exif_tag_value2name;
+
+
+#ifndef DOXYGEN
 class Measure_reader {
 public:
-	enum { READ_CHUNK_SIZE=10*0x400 }; // 10K
-	typedef size_t (*Func)(void *& buf, size_t limit, void *info);
+	virtual size_t read(const char* &buf, size_t limit)=0;
+	virtual void seek(long value, int whence)=0;
+	virtual long tell()=0;
+};
 
-	Measure_reader(Func afunc, void *ainfo) : 
-		func(afunc), info(ainfo), 
-		chunk(0), offset(0), size(0) {
+class Measure_file_reader: public Measure_reader {
+
+	;
+	const String& file_name; const char* fname;
+	int f;
+
+public:
+	Measure_file_reader(int af, const String& afile_name, const char* afname): 
+		file_name(afile_name), fname(afname), f(af) {
 	}
 
-	size_t read(unsigned char *& buf, size_t limit) {
-		if(!size) // nothing left
-			size=(*func)(chunk, READ_CHUNK_SIZE, info);
-		if(!size) // EOF
+	override size_t read(const char* &abuf, size_t limit) {
+		if(limit==0)
 			return 0;
-			
-		// something left
-		size_t read_size=min(offset+limit, size)-offset;
-		buf=((unsigned char *)chunk)+offset;
-		offset+=read_size;
+
+		char* lbuf=new(PointerFreeGC) char[limit];
+		size_t read_size=(size_t)::read(f, lbuf, limit);  abuf=lbuf;
+		if(ssize_t(read_size)<0 || read_size>limit)
+			throw Exception(0,
+				&file_name, 
+				"measure failed: actually read %lu bytes count not in [0..%lu] valid range", 
+			read_size, limit);
+
 		return read_size;
 	}
 
-private:
-	Func func;
-	void *info;
+	override void seek(long value, int whence) {
+		if(lseek(f, value, whence)<0)
+			throw Exception("image.format",
+				&file_name, 
+				"seek(value=%ld, whence=%d) failed: %s (%d), actual filename '%s'", 
+					value, whence, strerror(errno), errno, fname);
+	}
+
+	override long tell() { return lseek(f, 0, SEEK_CUR); }
+
+};
+
+class Measure_buf_reader: public Measure_reader {
+
+	const char* buf; size_t size;
+	const String& file_name; 
 
-	void *chunk;
 	size_t offset;
-	size_t size;
+
+public:
+	Measure_buf_reader(const char* abuf, size_t asize, const String& afile_name): 
+		buf(abuf), size(asize), file_name(afile_name), offset(0) {
+	}
+	
+	override size_t read(const char* &abuf, size_t limit) {
+		size_t to_read=min(limit, size-offset);
+		abuf=buf+offset;
+		offset+=to_read;
+		return to_read;
+	}
+
+	override void seek(long value, int whence) {
+		size_t new_offset;
+		switch(whence) {
+		case SEEK_CUR: new_offset=offset+value; break;
+		case SEEK_SET: new_offset=(size_t)value; break;
+		default: 
+			throw Exception(0, 
+				0, 
+				"whence #%d not supported", 0, whence); 
+			break; // never
+		}
+		
+		if((ssize_t)new_offset<0 || new_offset>size)
+			throw Exception("image.format",
+				&file_name, 
+				"seek(value=%l, whence=%d) failed: out of buffer, new_offset>size (%l>%l) or new_offset<0", 
+					value, whence, new_offset, size);
+		offset=new_offset;
+	}
+
+	override long tell() { return offset; }
+
 };
 
-// GIF
+#endif
+
+/// PNG file header
+struct PNG_Header {
+	char dummy[12];
+	char signature[4]; //< must be "IHDR"
+	uchar high_width[2]; //< image width high bytes [we ignore for now]
+	uchar width[2]; //< image width low bytes
+	uchar high_height[2]; //< image height high bytes [we ignore for now]
+	uchar height[4]; //< image height
+};
+
+/// GIF file header
 struct GIF_Header {
-	char       type[3];          // 'GIF'
+	char       signature[3];         // 'GIF'
 	char       version[3];
-	unsigned char       width[2];
-	unsigned char       height[2];
+	uchar       width[2];
+	uchar       height[2];
 	char       dif;
 	char       fonColor;
 	char       nulls;
 };
 
-// JPEG
-struct JFIF_Header {
-	char length[2];               // length of JFIF segment marker
-	char identifier[5];           // JFIF identifier
-	char version[2];              // version
-	char units;                   // units X of Y pixel density
-	char xdensity[2];             // X pixel density
-	char ydensity[2];             // X pixel density
-	char xthumbnails;             // width of thumbnails
-	char ythumbnails;             // height of thumbnails
-	char reserved;                // reserved
-};
-struct JPG_Frame {
-	char length[2];                // length of image marker
-	char data;                     // data precision of bits/sample
-	char height[2];                // image height
-	char width[2];                 // image width
-	char numComponents;            // number of color components
+/// JPEG record head
+struct JPG_Segment_head {
+	uchar marker;
+	uchar code;
+	uchar length[2];
+};
+/// JPEG frame header
+struct JPG_Size_segment_body {
+	char data;                    //< data precision of bits/sample
+	uchar height[2];               //< image height
+	uchar width[2];                //< image width
+	char numComponents;           //< number of color components
+};
+
+/// JPEG frame header
+struct JPG_Exif_segment_begin {
+	char signature[6]; // Exif\0\0
+};
+
+/// JPEG Exif TIFF Header
+struct JPG_Exif_TIFF_header {
+	uchar byte_align_identifier[2];
+	char dummy[2]; // always 000A [or 0A00]
+	uchar first_IFD_offset[4]; // Usually the first IFD starts immediately next to TIFF header, so this offset has value '0x00000008'.
+};
+
+// JPEG Exif IFD start
+struct JPG_Exif_IFD_begin {
+	uchar directory_entry_count[2]; // the number of directory entry contains in this IFD
+};
+
+// TTTT ffff NNNNNNNN DDDDDDDD 
+struct JPG_Exif_IFD_entry {
+	uchar tag[2]; // Tag number, this shows a kind of data
+	uchar format[2]; // data format
+	uchar components_count[4]; // number of components
+	uchar value_or_offset_to_it[4]; // data value or offset to data value
 };
 
+#define JPG_IFD_TAG_EXIF_OFFSET 0x8769
+
+#define JPEG_EXIF_DATE_CHARS 20
+
 //
 
-inline short bytes_to_int(unsigned char HI, unsigned char LO) {
-	return (short)((HI<<8) + LO);
+inline ushort x_endian_to_ushort(uchar b0, uchar b1) {
+	return (ushort)((b1<<8) + b0);
+}
+
+inline uint x_endian_to_uint(uchar b0, uchar b1, uchar b2, uchar b3) {
+	return (uint)(((((b3<<8) + b2)<<8)+b1)<<8)+b0;
+}
+
+inline ushort endian_to_ushort(bool is_big, const uchar *b/* [2] */) {
+	return is_big?x_endian_to_ushort(b[1], b[0]):
+		x_endian_to_ushort(b[0], b[1]);
+}
+
+inline uint endian_to_uint(bool is_big, const uchar *b /* [4] */) {
+	return is_big?x_endian_to_uint(b[3], b[2], b[1], b[0]):
+		x_endian_to_uint(b[0], b[1], b[2], b[3]);
 }
 
-void measure_gif(Pool& pool, const String *origin_string, 
-			 Measure_reader& reader, int& width, int& height) {
+static void measure_gif(const String& origin_string, 
+			 Measure_reader& reader, ushort& width, ushort& height) {
 
-	unsigned char *buf;
+	const char* buf;
 	const int head_size=sizeof(GIF_Header);
 	if(reader.read(buf, head_size)<head_size)
-		PTHROW(0, 0, 
-			origin_string, 
-			"broken GIF header - file size is less then %d bytes", head_size);
-
-	GIF_Header& screenD=*reinterpret_cast<GIF_Header *>(buf);
-	if(strncmp(screenD.type, "GIF", 3)!=0)
-		PTHROW(0, 0, 
-			origin_string, 
-			"bad image file - GIF signature not found");	
+		throw Exception("image.format", 
+			&origin_string, 
+			"not GIF file - too small");
+	GIF_Header *head=(GIF_Header *)buf;
+
+	if(strncmp(head->signature, "GIF", 3)!=0)
+		throw Exception("image.format", 
+			&origin_string, 
+			"not GIF file - wrong signature");	
 
-	width=bytes_to_int(screenD.width[1], screenD.width[0]);
-	height=bytes_to_int(screenD.height[1], screenD.height[0]);
+	width=endian_to_ushort(false, head->width);
+	height=endian_to_ushort(false, head->height);
 }
 
-void measure_jpeg(Pool& pool, const String *origin_string, 
-			 Measure_reader& reader, int& width, int& height) {
-	// JFIF format markers
-	const unsigned char SOI=0xD8;
-	const unsigned char EOI=0xD9;
-	const unsigned char APP0=0xE0;
-	const unsigned char SOF0=0xC0;
-	const unsigned char SOF2=0xC2;
-	const unsigned char COM=0xFE;
-
-	unsigned char *screenD_buf;
-	unsigned char *h_buf;
-	
-	bool flag=false;
+static Value* parse_IFD_entry_formatted_one_value(
+												  bool is_big,
+												  ushort format, 
+												  size_t component_size, 
+												  const uchar *value) {
+	switch(format) {
+	case 1: // unsigned byte
+		return new VInt((uchar)value[0]);
+	case 3: // unsigned short
+		return new VInt(endian_to_ushort(is_big, value));
+	case 4: // unsigned long
+		 // 'double' because parser's Int is signed
+		return new VDouble(endian_to_uint(is_big, value));
+	case 5: // unsigned rational
+		{
+			uint numerator=endian_to_uint(is_big, value); value+=component_size/2;
+			uint denominator=endian_to_uint(is_big, value);
+			if(!denominator)
+				return 0;
+			return new VDouble(((double)numerator)/denominator);
+		}
+	case 6: // signed byte
+		return new VInt((signed char)value[0]);
+	case 8: // signed short
+		return new VInt((signed short)endian_to_ushort(is_big, value));
+	case 9: // signed long
+		return new VInt((signed int)endian_to_uint(is_big, value));
+	case 10: // signed rational
+		{
+			signed int numerator=(signed int)endian_to_uint(is_big, value); value+=component_size/2;
+			uint denominator=endian_to_uint(is_big, value);
+			if(!denominator)
+				return 0;
+			return new VDouble(numerator/denominator);
+		}
+		/*
+	case 11: // single float
+		todo
+	case 12: // double float
+		todo
+		*/
+	};	
 	
-	unsigned char *prefix;
-	const prefix_size=2;
-	if(reader.read(prefix, prefix_size)<prefix_size)
-		PTHROW(0, 0, 
-			origin_string, 
-			"broken JPEG file - size is less then %d bytes", prefix_size);
+	return 0;
+}
+
+// date.C
+time_t cstr_to_time_t(char *cstr, bool fail_on_error);
+
+static Value* parse_IFD_entry_formatted_value(bool is_big, ushort format, 
+					      size_t component_size, uint components_count, 
+					      const uchar *value) {
+	if(format==2) { // ascii string, exception: the only type with varying size
+		const char* cstr=(const char* )value;
+		size_t length=components_count;
+		// Data format is "YYYY:MM:DD HH:MM:SS"+0x00, total 20bytes
+		if(length==JPEG_EXIF_DATE_CHARS 
+			&& isdigit(cstr[0])
+			&& cstr[length-1]==0) {
+			char cstr_writable[JPEG_EXIF_DATE_CHARS]; 
+			strcpy(cstr_writable, cstr);
+
+			time_t t=cstr_to_time_t(cstr_writable, 
+				false/* do not throw exception, just return bad result */);
+			if(t>=0)
+				return new VDate(t);
+		}
+
+		if(const char* premature_zero_pos=(const char* )memchr(cstr, 0, length))
+			length=premature_zero_pos-cstr;
+		return new VString(*new String(cstr, length, true/*tainted*/));
+	}
+
+	if(components_count==1)
+		return parse_IFD_entry_formatted_one_value(is_big, format, component_size, value);
+
+	VHash* result=new VHash;
+	HashStringValue& hash=result->hash();
+	for(uint i=0; i<components_count; i++, value+=component_size) {
+		hash.put(
+			String::Body::Format(i),
+			parse_IFD_entry_formatted_one_value(is_big, format, component_size, value));
+	}
+
+	return result;
+}
+
+static Value* parse_IFD_entry_value(
+									bool is_big, Measure_reader& reader, long tiff_base,
+									JPG_Exif_IFD_entry& entry) {
+	size_t format2component_size[]={
+		0, // undefined
+		1, // unsigned byte
+		1, // ascii string
+		2, // unsigned short
+		4, // unsigned long
+		8, // unsigned rational
+		1, // signed byte
+		0, // undefined
+		2, // signed short
+		4, // signed long
+		8, // signed rational
+		/*
+		4, // single float
+		8, // double float
+		*/
+	};
+
+	ushort format=endian_to_ushort(is_big, entry.format);
+	if(format>=sizeof(format2component_size)/sizeof(format2component_size[0]))
+		return 0; // format out of range, ignoring
+
+	size_t component_size=format2component_size[format];
+	if(component_size==0)
+		return 0; // undefined format
+
+	// You can get the total data byte length by multiplies 
+	// a 'bytes/components' value (see above chart) by number of components stored 'NNNNNNNN' area
+	uint components_count=endian_to_uint(is_big, entry.components_count);
+	size_t value_size=component_size*components_count;
+	// If its size is over 4bytes, 'DDDDDDDD' contains the offset to data stored address
+	Value* result;
+
+	if(value_size<=4)
+		result=parse_IFD_entry_formatted_value(
+			is_big, format, 
+			component_size, components_count, 
+			entry.value_or_offset_to_it);
+	else {
+		long remembered=reader.tell();
+		{
+			reader.seek(tiff_base+endian_to_uint(is_big, entry.value_or_offset_to_it), SEEK_SET);
+			const char* value;
+			if(reader.read(value, value_size)<sizeof(value_size))
+				return 0;
+			result=parse_IFD_entry_formatted_value(
+				is_big, format, 
+				component_size, components_count, 
+				(const uchar*)value);
+		}
+		reader.seek(remembered, SEEK_SET);
+	}
+
+	return result;
+}
+
+static void parse_IFD(HashStringValue& hash,
+		      bool is_big, Measure_reader& reader, long tiff_base);
+
+static void parse_IFD_entry(HashStringValue& hash,
+			    bool is_big, Measure_reader& reader, long tiff_base,
+			    JPG_Exif_IFD_entry& entry) {
+	ushort tag=endian_to_ushort(is_big, entry.tag);
+	if(tag==JPG_IFD_TAG_EXIF_OFFSET) {
+		long remembered=reader.tell();
+		{
+			reader.seek(tiff_base+endian_to_uint(is_big, entry.value_or_offset_to_it), SEEK_SET);
+			parse_IFD(hash, is_big, reader, tiff_base);
+		}
+		reader.seek(remembered, SEEK_SET);
+		return;
+	}
 	
-	if(((unsigned char *)prefix)[1]!=SOI) 
-		PTHROW(0, 0, 
-			origin_string, 
-			"broken JPEG file - second byte of header is not 0x%02X", SOI);
-		
-	unsigned char zero=0;
-	unsigned char *marker=&zero;
+	if(Value* value=parse_IFD_entry_value(is_big, reader, tiff_base, entry)) {
+		if(const char* name=exif_tag_value2name.get(tag))
+			hash.put(String::Body(name), value);
+		else
+			hash.put(String::Body::Format(tag), value);
+	}
+}
 
-	do {
-		while((*marker)!=0xFF)
-			if(reader.read(marker, sizeof(char))<=0) break;
-		if(reader.read(marker, sizeof(char))<=0) break;
-		switch(*marker) {
-		case EOI:
-			marker=&zero;
-			break;
-		case APP0:
-			if(!flag) {
-				flag=true;
-				if(reader.read(screenD_buf, sizeof(JFIF_Header)) < sizeof(JFIF_Header))
-					break;
-				JFIF_Header& screenD=*reinterpret_cast<JFIF_Header *>(screenD_buf);
-				if((bytes_to_int(screenD.length[0], screenD.length[1]) < 16) ||
-					strcasecmp(screenD.identifier, "JFIF")) flag=false;
-			}
+static void parse_IFD(
+		      HashStringValue& hash,
+		      bool is_big, Measure_reader& reader, long tiff_base) {
+	const char* buf;
+	if(reader.read(buf, sizeof(JPG_Exif_IFD_begin))<sizeof(JPG_Exif_IFD_begin))
+		return;
+	JPG_Exif_IFD_begin *start=(JPG_Exif_IFD_begin *)buf;
+
+	ushort directory_entry_count=endian_to_ushort(is_big, start->directory_entry_count);
+	for(int i=0; i<directory_entry_count; i++) {
+		if(reader.read(buf, sizeof(JPG_Exif_IFD_entry))<sizeof(JPG_Exif_IFD_entry))
+			return;
+
+		parse_IFD_entry(hash, is_big, reader, tiff_base, *(JPG_Exif_IFD_entry *)buf);
+	}
+	// then goes: LLLLLLLL Offset to next IFD [not going there]
+}
+
+static Value* parse_exif(Measure_reader& reader, const String& origin_string) {
+	const char* buf;
+	if(reader.read(buf, sizeof(JPG_Exif_segment_begin))<sizeof(JPG_Exif_segment_begin))
+		throw Exception("image.format", 
+			&origin_string, 
+			"not JPEG file - can not fully read Exif segment start");
+
+	JPG_Exif_segment_begin *start=(JPG_Exif_segment_begin *)buf;
+	if(memcmp(start->signature, "Exif\0\0", 4+2)!=0) //signature invalid?
+		return 0; // ignore invalid block
+
+	uint tiff_base=reader.tell();
+	if(reader.read(buf, sizeof(JPG_Exif_TIFF_header))<sizeof(JPG_Exif_TIFF_header))
+		return 0;
+
+	JPG_Exif_TIFF_header *head=(JPG_Exif_TIFF_header *)buf;
+	bool is_big=head->byte_align_identifier[0]=='M'; // [M]otorola vs [I]ntel
+
+	uint first_IFD_offset=endian_to_uint(is_big, head->first_IFD_offset);
+	reader.seek(tiff_base+first_IFD_offset, SEEK_SET);
+
+	VHash* vhash=new VHash;
+
+	// IFD
+	parse_IFD(vhash->hash(), is_big, reader, tiff_base);
+
+	return vhash;
+}
+
+static void measure_jpeg(const String& origin_string, 
+			 Measure_reader& reader, ushort& width, ushort& height, Value** exif) {
+	// JFIF format markers
+	const uchar MARKER=0xFF;
+	const uchar CODE_SIZE_A=0xC0;
+	const uchar CODE_SIZE_B=0xC1;
+	const uchar CODE_SIZE_C=0xC2;
+	const uchar CODE_SIZE_D=0xC3;
+	const uchar CODE_EXIF=0xE1;
+
+	const char* buf;
+	const size_t prefix_size=2;
+	if(reader.read(buf, prefix_size)<prefix_size)
+		throw Exception("image.format", 
+			&origin_string, 
+			"not JPEG file - too small");
+	uchar *signature=(uchar *)buf;
+	
+	if(!(signature[0]==0xFF && signature[1]==0xD8)) 
+		throw Exception("image.format", 
+			&origin_string, 
+			"not JPEG file - wrong signature");
+
+	while(true) {
+		uint segment_base=reader.tell()+2/*marker,code*/;
+		if(reader.read(buf, sizeof(JPG_Segment_head))<sizeof(JPG_Segment_head))
 			break;
-		case SOF0:
-		case SOF2:
-			if(reader.read(h_buf, sizeof(JPG_Frame))<sizeof(JPG_Frame))
-				flag=false;
+		JPG_Segment_head *head=(JPG_Segment_head *)buf;
+
+        // Verify that it's a valid segment.
+		if(head->marker!=MARKER)
+			throw Exception("image.format", 
+				&origin_string, 
+				"not JPEG file - marker not found");
+
+		switch(head->code) {
+		// http://www.ba.wakwak.com/~tsuruzoh/Computer/Digicams/exif-e.html
+		case CODE_EXIF:
+			if(exif && !*exif) // seen .jpg with some xml under EXIF tag, after real exif block :)
+				*exif=parse_exif(reader, origin_string);
 			break;
-		default: break;
-		}
-	} while(*marker!=EOI);
-	
-	if(flag) {
-		JPG_Frame& h=*reinterpret_cast<JPG_Frame *>(h_buf);
-		width=bytes_to_int(h.width[0], h.width[1]);
-		height=bytes_to_int(h.height[0], h.height[1]);
-	} else
-		PTHROW(0, 0,
-			origin_string,
-			"broken JPEG file - APP0 frame not found");			
+
+		case CODE_SIZE_A:
+		case CODE_SIZE_B:
+		case CODE_SIZE_C:
+		case CODE_SIZE_D:
+			{
+				// Segments that contain size info
+				if(reader.read(buf, sizeof(JPG_Size_segment_body))<sizeof(JPG_Size_segment_body))
+					throw Exception("image.format", 
+						&origin_string, 
+						"not JPEG file - can not fully read Size segment");
+				JPG_Size_segment_body *body=(JPG_Size_segment_body *)buf;
+				
+				width=endian_to_ushort(true, body->width);
+				height=endian_to_ushort(true, body->height);
+			}			
+			return;
+		};
+
+		reader.seek(segment_base+endian_to_ushort(true, head->length), SEEK_SET);
+	}
+
+	throw Exception("image.format", 
+		&origin_string, 
+		"broken JPEG file - size frame not found");
+}
+
+static void measure_png(const String& origin_string, 
+			 Measure_reader& reader, ushort& width, ushort& height) {
+
+	const char* buf;
+	const int head_size=sizeof(PNG_Header);
+	if(reader.read(buf, head_size)<head_size)
+		throw Exception("image.format", 
+			&origin_string, 
+			"not PNG file - too small");
+	PNG_Header *head=(PNG_Header *)buf;
+
+	if(strncmp(head->signature, "IHDR", 4)!=0)
+		throw Exception("image.format", 
+			&origin_string, 
+			"not PNG file - wrong signature");	
+
+	width=endian_to_ushort(true, head->width);
+	height=endian_to_ushort(true, head->height);
 }
 
 // measure center
 
-void measure(Pool& pool, const String& file_name, 
-			 Measure_reader& reader, int& width, int& height) {
-	if(const char *cext=strrchr(file_name.cstr(), '.')) {
+static void measure(const String& file_name, 
+			 Measure_reader& reader, ushort& width, ushort& height, Value** exif) {
+	const char* file_name_cstr=file_name.cstr(String::L_FILE_SPEC);
+	if(const char* cext=strrchr(file_name_cstr, '.')) {
 		cext++;
 		if(strcasecmp(cext, "GIF")==0)
-			measure_gif(pool, &file_name, reader, width, height);
+			measure_gif(file_name, reader, width, height);
 		else if(strcasecmp(cext, "JPG")==0 || strcasecmp(cext, "JPEG")==0) 
-			measure_jpeg(pool, &file_name, reader, width, height);
+			measure_jpeg(file_name, reader, width, height, exif);
+		else if(strcasecmp(cext, "PNG")==0)
+			measure_png(file_name, reader, width, height);
 		else
-			PTHROW(0, 0, 
+			throw Exception("image.format", 
 				&file_name, 
 				"unhandled image file name extension '%s'", cext);
 	} else
-		PTHROW(0, 0, 
+		throw Exception("image.format", 
 			&file_name, 
 			"can not determine image type - no file name extension");
 }
 
-// read from somewhere
+// methods
 
-struct Read_mem_info {
-	unsigned char *ptr;
-	unsigned char *eof;
-};
-static size_t read_mem(void*& buf, size_t limit, void *info) {
-	Read_mem_info& rmi=*static_cast<Read_mem_info *>(info);
-	buf=rmi.ptr;
-	size_t read_size=min(limit, (size_t)(rmi.eof-rmi.ptr));
-	rmi.ptr+=read_size;
-	return read_size;
+#ifndef DOXYGEN
+struct File_measure_action_info {
+	ushort* width;
+	ushort* height;
+	Value** exif;
+	const String* file_name;
+};
+#endif
+static void file_measure_action(
+								struct stat& /*finfo*/, int f, 
+								const String& /*file_spec*/, const char* fname, bool /*as_text*/,
+								void *context) {
+	File_measure_action_info& info=*static_cast<File_measure_action_info *>(context);
+
+	Measure_file_reader reader(f, *info.file_name, fname);
+	measure(*info.file_name, reader, *info.width, *info.height, info.exif);
 }
 
-struct Read_disk_info {
-	const String *file_spec;
-	size_t offset;
-};
-static size_t read_disk(void*& buf, size_t limit, void *info) {
-	Read_disk_info& rdi=*static_cast<Read_disk_info *>(info);
-	Pool& pool=rdi.file_spec->pool();
-
-	size_t read_size;
-	file_read(pool, *rdi.file_spec, 
-			   buf, read_size, 
-			   false/*as_text*/, 
-			   true/*fail_on_read_problem*/, 
-			   rdi.offset, limit);
+static void _measure(Request& r, MethodParams& params) {
+	Value& data=params.as_no_junction(0, "data must not be code");
+
+	ushort width=0;
+	ushort height=0;
+	Value* exif=0;
+	const String* file_name;
+	if(file_name=data.get_string()) {
+		File_measure_action_info info={0};
+		info.width=&width;
+		info.height=&height;
+		info.exif=&exif;
+		info.file_name=file_name;
+		file_read_action_under_lock(r.absolute(*file_name), 
+			"measure", file_measure_action, &info);
+	} else {
+		VFile* vfile=data.as_vfile();
+		file_name=&vfile->fields().get(name_name)->as_string();
+		Measure_buf_reader reader(
+			vfile->value_ptr(),
+			vfile->value_size(),
+			*file_name
+		);
+		measure(*file_name, reader, width, height, &exif);
+	}
 
-	rdi.offset+=read_size;
-	return read_size;
+	GET_SELF(r, VImage).set(file_name, width, height, 0, exif);
 }
 
-// methods
+#ifndef DOXYGEN
+struct Attrib_info {
+	String* tag; ///< html tag being constructed
+	HashStringValue* skip; ///< tag attributes not to append to tag string [to skip]
+};
+#endif
+static void append_attrib_pair(
+			       HashStringValue::key_type key, 
+			       HashStringValue::value_type value, 
+			       Attrib_info* info) {
+	// skip user-specified and internal(starting with "line-") attributes 
+	if(info->skip && info->skip->get(key) || key.pos("line-")==0)
+		return;
+
+	// src="a.gif" width=123 ismap[=-1]
+	*info->tag << " " << key;
+	if(value->is_string() || value->as_int()>=0)
+		*info->tag << "=\"" << value->as_string() << "\"";
+}
+static void _html(Request& r, MethodParams& params) {
+
+	String tag;
+	tag << "<img";
+
+	const HashStringValue& fields=GET_SELF(r, VImage).fields();
+	HashStringValue* attribs=0;
+
+	if(params.count()) {
+		// for backward compatibility: someday was ^html{}
+		Value& vattribs=r.process_to_value(params[0],
+			/*0/*no name* /,*/
+			false/*don't intercept string*/);
+		if(!vattribs.is_string()) // allow empty
+			if(attribs=vattribs.get_hash()) {
+				Attrib_info info={&tag};
+				attribs->for_each(append_attrib_pair, &info);
+			} else
+				throw Exception("parser.runtime", 
+					0, 
+					"attributes must be hash");
+	}
+
+	{
+		Attrib_info info={&tag, attribs};
+		fields.for_each(append_attrib_pair, &info);
+	}
+	tag << " />";
+	r.write_pass_lang(tag);
+}
 
-/// ^image:measure[DATA]
-static void _measure(Request& r, const String& method_name, Array *params) {
-	Pool& pool=r.pool();
-
-	Value& data=*static_cast<Value *>(params->get(0));
-	// forcing [this body type]
-	r.fail_if_junction_(true, data, method_name, "data must not be code");
-
-	void *info; Measure_reader::Func read_func; 
-	Read_mem_info read_mem_info;
-	Read_disk_info read_disk_info;
-	const String *file_name;
-	if(data.is_string()) {
-		file_name=data.get_string();
-		read_disk_info.file_spec=&r.absolute(*file_name);
-		read_disk_info.offset=0;
-		info=&read_disk_info; read_func=read_disk;
+/// @test wrap FILE to auto-object
+static gdImage* load(Request& r, 
+					 const String& file_name){
+	const char* file_name_cstr=r.absolute(file_name).cstr(String::L_FILE_SPEC);
+	if(FILE *f=fopen(file_name_cstr, "rb")) {
+		gdImage* image=new gdImage;
+		bool ok=image->CreateFromGif(f);
+		fclose(f);
+		if(!ok)
+			throw Exception("image.format", 
+				&file_name,
+				"is not in GIF format");
+		return image;
 	} else {
-		const VFile& vfile=*data.as_vfile();
-		file_name=&static_cast<Value *>(vfile.fields().get(*name_name))->as_string();
-		read_mem_info.ptr=(unsigned char *)vfile.value_ptr();
-		read_mem_info.eof=read_mem_info.ptr+vfile.value_size();
-		info=&read_mem_info; read_func=read_mem;
+		throw Exception("file.missing", 
+			0, 
+			"can not open '%s'", file_name_cstr);
 	}
+}
+
+
+static void _load(Request& r, MethodParams& params) {
+	const String& file_name=params.as_string(0, "file name must not be code");
+
+	gdImage* image=load(r, file_name);
+	GET_SELF(r, VImage).set(&file_name, image->SX(), image->SY(), image);
+}
+
+static void _create(Request& r, MethodParams& params) {
+	int width=params.as_int(0, "width must be int", r);
+	int height=params.as_int(1, "height must be int", r);
+	int bgcolor_value=0xffFFff;
+	if(params.count()>2)
+		bgcolor_value=params.as_int(2, "color must be int", r);
+	gdImage* image=new gdImage;
+	image->Create(width, height);
+	image->FilledRectangle(0, 0, width-1, height-1, image->Color(bgcolor_value));
+	GET_SELF(r, VImage).set(0, width, height, image);
+}
+
+static void _gif(Request& r, MethodParams& params) {
+	gdImage* image=GET_SELF(r, VImage).image;
+	if(!image)
+		throw Exception(0, 
+			0, 
+			"does not contain an image");
+
+	const String *file_name=0;
+	if(params.count()>0)
+		file_name=&params.as_string(0, "file name must be string");
+
+	gdBuf buf=image->Gif();
+	
+	VFile& vfile=*new VFile;
+	Value* content_type=new VString(*new String("image/gif"));
+	vfile.set(false/*not tainted*/, 
+		(const char*)buf.ptr, buf.size, 
+		file_name? file_name->cstr(String::L_FILE_SPEC): 0, 
+		content_type);
+
+	r.write_no_lang(vfile);
+}
+
+static void _line(Request& r, MethodParams& params) {
+	gdImage* image=GET_SELF(r, VImage).image;
+	if(!image)
+		throw Exception(0, 
+			0, 
+			"does not contain an image");
+
+	image->Line(
+		params.as_int(0, "x0 must be int", r), 
+		params.as_int(1, "y0 must be int", r), 
+		params.as_int(2, "x1 must be int", r), 
+		params.as_int(3, "y1 must be int", r), 
+		image->Color(params.as_int(4, "color must be int", r)));
+}
+
+static void _fill(Request& r, MethodParams& params) {
+	gdImage* image=GET_SELF(r, VImage).image;
+	if(!image)
+		throw Exception(0, 
+			0, 
+			"does not contain an image");
+
+	image->Fill(
+		params.as_int(0, "x must be int", r), 
+		params.as_int(1, "y must be int", r), 
+		image->Color(params.as_int(2, "color must be int", r)));
+}
+
+static void _rectangle(Request& r, MethodParams& params) {
+	gdImage* image=GET_SELF(r, VImage).image;
+	if(!image)
+		throw Exception(0, 
+			0, 
+			"does not contain an image");
+
+	image->Rectangle(
+		params.as_int(0, "x0 must be int", r), 
+		params.as_int(1, "y0 must be int", r), 
+		params.as_int(2, "x1 must be int", r), 
+		params.as_int(3, "y1 must be int", r), 
+		image->Color(params.as_int(4, "color must be int", r)));
+}
+
+static void _bar(Request& r, MethodParams& params) {
+	gdImage* image=GET_SELF(r, VImage).image;
+	if(!image)
+		throw Exception(0, 
+			0, 
+			"does not contain an image");
+
+	image->FilledRectangle(
+		params.as_int(0, "x0 must be int", r), 
+		params.as_int(1, "y0 must be int", r), 
+		params.as_int(2, "x1 must be int", r), 
+		params.as_int(3, "y1 must be int", r), 
+		image->Color(params.as_int(4, "color must be int", r)));
+}
+
+#ifndef DOXYGEN
+static void add_point(Table::element_type row, 
+					  gdImage::Point **p) {
+	(**p).x=row->get(0)->as_int();
+	(**p).y=row->get(1)->as_int();
+	(*p)++;
+}
+#endif
+static void _replace(Request& r, MethodParams& params) {
+	gdImage* image=GET_SELF(r, VImage).image;
+	if(!image)
+		throw Exception(0, 
+			0, 
+			"does not contain an image");
+
+	Table* table=params.as_no_junction(2, "coordinates must not be code").get_table();
+	if(!table) 
+		throw Exception(0,
+			0,
+			"coordinates must be table");
+
+	gdImage::Point *all_p=new(PointerFreeGC) gdImage::Point[table->count()];
+	gdImage::Point *add_p=all_p;	
+	table->for_each(add_point, &add_p);
+	image->FilledPolygonReplaceColor(all_p, table->count(), 
+		image->Color(params.as_int(0, "src color must be int", r)),
+		image->Color(params.as_int(1, "dest color must be int", r)));
+}
+
+static void _polyline(Request& r, MethodParams& params) {
+	gdImage* image=GET_SELF(r, VImage).image;
+	if(!image)
+		throw Exception(0, 
+			0, 
+			"does not contain an image");
+
+	Table* table=params.as_no_junction(1, "coordinates must not be code").get_table();
+	if(!table) 
+		throw Exception(0,
+			0,
+			"coordinates must be table");
+
+	gdImage::Point* all_p=new(PointerFreeGC) gdImage::Point[table->count()];
+	gdImage::Point *add_p=all_p;	
+	table->for_each(add_point, &add_p);
+	image->Polygon(all_p, table->count(), 
+		image->Color(params.as_int(0, "color must be int", r)),
+		false/*not closed*/);
+}
 
-	Measure_reader reader(read_func, info);
-	int width, height;
-	measure(pool, *file_name, reader, width, height);
+static void _polygon(Request& r, MethodParams& params) {
+	gdImage* image=GET_SELF(r, VImage).image;
+	if(!image)
+		throw Exception(0, 
+			0, 
+			"does not contain an image");
+
+	Table* table=params.as_no_junction(1, "coordinates must not be code").get_table();
+	if(!table) 
+		throw Exception(0,
+			0,
+			"coordinates must be table");
+
+	gdImage::Point* all_p=new(PointerFreeGC) gdImage::Point[table->count()];
+	gdImage::Point *add_p=all_p;	
+	table->for_each(add_point, &add_p);
+	image->Polygon(all_p, table->count(), 
+		image->Color(params.as_int(0, "color must be int", r)));
+}
+
+static void _polybar(Request& r, MethodParams& params) {
+	gdImage* image=GET_SELF(r, VImage).image;
+	if(!image)
+		throw Exception(0, 
+			0, 
+			"does not contain an image");
+
+	Table* table=params.as_no_junction(1, "coordinates must not be code").get_table();
+	if(!table) 
+		throw Exception("parser.runtime",
+			0,
+			"coordinates must be table");
+
+	gdImage::Point* all_p=new(PointerFreeGC) gdImage::Point[table->count()];
+	gdImage::Point *add_p=all_p;	
+	table->for_each(add_point, &add_p);
+	image->FilledPolygon(all_p, table->count(), 
+		image->Color(params.as_int(0, "color must be int", r)));
+}
+
+// font
+
+#define Y(y)(y+index*height)
+
+// Font class
+
+const int Font::letter_spacing=1;
+
+Font::Font(//, 
+	const String& aalphabet, 
+	gdImage* aifont, int aheight, int amonospace, int aspacebarspace):
+	alphabet(aalphabet), 
+	height(aheight), monospace(amonospace),  spacebarspace(aspacebarspace),
+	ifont(aifont) {
+}
+
+/* ******************************** char ********************************** */
+
+size_t Font::index_of(char ch) {
+	if(ch==' ') return STRING_NOT_FOUND;
+	return alphabet.pos(ch);
+}
+
+int Font::index_width(size_t index) {
+	if(index==STRING_NOT_FOUND)
+		return spacebarspace;
+	int tr=ifont->GetTransparent();
+	for(int x=ifont->SX()-1; x>=0; x--) {
+		for(int y=0; y<height; y++)
+			if(ifont->GetPixel(x, Y(y))!=tr) 
+				return x+1;
+	}
+	return 0;
+}
 
-	static_cast<VImage *>(r.self)->set(*file_name, width, height);
+void Font::index_display(gdImage* image, int x, int y, size_t index){
+	if(index!=STRING_NOT_FOUND) 
+		ifont->Copy(*image, x, y, 0, Y(0), index_width(index), height);
 }
 
-// initialize
-void initialize_image_class(Pool& pool, VStateless_class& vclass) {
+/* ******************************** string ********************************** */
+
+int Font::step_width(int index) {
+	return letter_spacing + (monospace ? monospace : index_width(index));
+}
+
+// counts trailing letter_spacing, consider this OK. useful for contiuations
+int Font::string_width(const String& s){
+	const char* cstr=s.cstr();
+	int result=0;
+	for(const char* current=cstr; *current; current++)
+		result+=step_width(index_of(*current));
+	return result;
+}
+
+void Font::string_display(gdImage* image, int x, int y, const String& s){
+	const char* cstr=s.cstr();
+	for(const char* current=cstr; *current; current++) {
+		size_t index=index_of(*current);
+		index_display(image, x, y, index);
+		x+=step_width(index);
+	}
+}
+
+//
+
+
+static void _font(Request& r, MethodParams& params) {
+	const String& alphabet=params.as_string(0, "alphabet must not be code");
+	gdImage* image=load(r, params.as_string(1, "file_name must not be code"));
+	int spacebar_width=params.as_int(2, "spacebar_width must be int", r);
+	int monospace_width;
+	if(params.count()>3) {
+		monospace_width=params.as_int(3, "monospace_width must be int", r);
+		if(!monospace_width)
+			monospace_width=image->SX();
+	} else
+		monospace_width=0;
+
+	if(!alphabet.length())
+		throw Exception("parser.runtime",
+			0,
+			"alphabet must not be empty");
+
+	if(int remainder=image->SY() % alphabet.length())
+		throw Exception("parser.runtime",
+			0,
+			"font-file height(%d) not divisable by alphabet size(%d), remainder=%d",
+				image->SY(), alphabet.length(), remainder);
+	
+	GET_SELF(r, VImage).font=new Font(
+		alphabet, 
+		image, 
+		image->SY() / alphabet.length(), monospace_width, spacebar_width);
+}
+
+static void _text(Request& r, MethodParams& params) {
+	int x=params.as_int(0, "x must be int", r);
+	int y=params.as_int(1, "y must be int", r);
+	const String& s=params.as_string(2, "text must not be code");
+
+	VImage& vimage=GET_SELF(r, VImage);
+	if(vimage.image)
+		if(vimage.font)
+			vimage.font->string_display(vimage.image, x, y, s);
+		else
+			throw Exception("parser.runtime",
+				0,
+				"set the font first");
+	else
+		throw Exception(0, 
+			0, 
+			"does not contain an image");
+}
+
+static void _length(Request& r, MethodParams& params) {
+	const String& s=params.as_string(0, "text must not be code");
+
+	VImage& vimage=GET_SELF(r, VImage);
+	if(vimage.image)
+		if(vimage.font) {
+			r.write_no_lang(*new VInt(vimage.font->string_width(s)));
+		} else
+			throw Exception("parser.runtime",
+				0,
+				"set the font first");
+	else
+		throw Exception(0, 
+			0, 
+			"does not contain an image");
+}
+
+static void _arc(Request& r, MethodParams& params) {
+	gdImage* image=GET_SELF(r, VImage).image;
+	if(!image)
+		throw Exception(0, 
+			0, 
+			"does not contain an image");
+
+	image->Arc(
+		params.as_int(0, "center_x must be int", r), 
+		params.as_int(1, "center_y must be int", r), 
+		params.as_int(2, "width must be int", r), 
+		params.as_int(3, "height must be int", r), 
+		params.as_int(4, "start degrees must be int", r), 
+		params.as_int(5, "end degrees must be int", r), 
+		image->Color(params.as_int(6, "cx must be int", r)));
+}
+
+static void _sector(Request& r, MethodParams& params) {
+	gdImage* image=GET_SELF(r, VImage).image;
+	if(!image)
+		throw Exception(0, 
+			0, 
+			"does not contain an image");
+
+	image->Sector(
+		params.as_int(0, "center_x must be int", r), 
+		params.as_int(1, "center_y must be int", r), 
+		params.as_int(2, "width must be int", r), 
+		params.as_int(3, "height must be int", r), 
+		params.as_int(4, "start degrees must be int", r), 
+		params.as_int(5, "end degrees must be int", r), 
+		image->Color(params.as_int(6, "color must be int", r)));
+}
+
+static void _circle(Request& r, MethodParams& params) {
+	gdImage* image=GET_SELF(r, VImage).image;
+	if(!image)
+		throw Exception(0, 
+			0, 
+			"does not contain an image");
+
+	int size=params.as_int(2, "radius must be int", r)*2;
+	image->Arc(
+		params.as_int(0, "center_x must be int", r), 
+		params.as_int(1, "center_y must be int", r), 
+		size, //w
+		size, //h
+		0, //s
+		360, //e
+		image->Color(params.as_int(3, "color must be int", r)));
+}
+
+gdImage* as_image(MethodParams& params, int index, const char* msg) {
+	gdImage* src=0;
+
+	Value& value=params.as_no_junction(index, msg);
+
+	if(Value* vimage=value.as(VIMAGE_TYPE, false)) {
+		src=static_cast<VImage *>(vimage)->image;
+		if(!src)
+			throw Exception("parser.runtime", 
+				0, 
+				msg);
+	} else
+		throw Exception("parser.runtime", 
+			0, 
+			msg);
+
+	return src;
+}
+
+static void _copy(Request& r, MethodParams& params) {
+	gdImage* dest=GET_SELF(r, VImage).image;
+	if(!dest)
+		throw Exception(0, 
+			0, 
+			"self does not contain an image");
+
+	gdImage* src=as_image(params, 0, "src must be image");
+
+	int sx=params.as_int(1, "src_x must be int", r);
+	int sy=params.as_int(2, "src_y must be int", r);
+	int sw=params.as_int(3, "src_w must be int", r);
+	int sh=params.as_int(4, "src_h must be int", r);
+	int dx=params.as_int(5, "dest_x must be int", r);
+	int dy=params.as_int(6, "dest_y must be int", r);
+	if(params.count()>1+2+2+2) {
+		int dw=params.as_int(1+2+2+2, "dest_w must be int", r);
+		int dh=(int)(params.count()>1+2+2+2+1?
+			params.as_int(1+2+2+2+1, "dest_h must be int", r):sh*(((double)dw)/((double)sw)));
+		int tolerance=params.count()>1+2+2+2+2?
+			params.as_int(1+2+2+2+2, "tolerance must be int", r):150;
+
+		src->CopyResampled(*dest, dx, dy, sx, sy, dw, dh, sw, sh, tolerance);
+	} else
+		src->Copy(*dest, dx, dy, sx, sy, sw, sh);
+}
+
+
+// constructor
+
+MImage::MImage(): Methoded("image") {
 	// ^image:measure[DATA]
-	vclass.add_native_method("measure", Method::CT_DYNAMIC, _measure, 1, 1);
+	add_native_method("measure", Method::CT_DYNAMIC, _measure, 1, 1);
+
+	// ^image.html[]
+	// ^image.html[hash]
+	add_native_method("html", Method::CT_DYNAMIC, _html, 0, 1);
+
+	// ^image.load[background.gif]
+	add_native_method("load", Method::CT_DYNAMIC, _load, 1, 1);
+
+	// ^image.create[width;height] bgcolor=white
+	// ^image.create[width;height;bgcolor]
+	add_native_method("create", Method::CT_DYNAMIC, _create, 2, 3);
+
+	// ^image.gif[]
+	add_native_method("gif", Method::CT_DYNAMIC, _gif, 0, 1);
+
+	// ^image.line(x0;y0;x1;y1;color)
+	add_native_method("line", Method::CT_DYNAMIC, _line, 5, 5);
+
+	// ^image.fill(x;y;color)
+	add_native_method("fill", Method::CT_DYNAMIC, _fill, 3, 3);
+
+	// ^image.rectangle(x0;y0;x1;y1;color)
+	add_native_method("rectangle", Method::CT_DYNAMIC, _rectangle, 5, 5);
+
+	// ^image.bar(x0;y0;x1;y1;color)
+	add_native_method("bar", Method::CT_DYNAMIC, _bar, 5, 5);
+
+	// ^image.replace(color-source;color-dest)[table x:y]
+	add_native_method("replace", Method::CT_DYNAMIC, _replace, 3, 3);
+
+	// ^image.polyline(color)[table x:y]
+	add_native_method("polyline", Method::CT_DYNAMIC, _polyline, 2, 2);
+
+	// ^image.polygon(color)[table x:y]
+	add_native_method("polygon", Method::CT_DYNAMIC, _polygon, 2, 2);
+
+	// ^image.polybar(color)[table x:y]
+	add_native_method("polybar", Method::CT_DYNAMIC, _polybar, 2, 2);
+
+    // ^image.font[alPHAbet;font-file-name.gif](spacebar_width)
+    // ^image.font[alPHAbet;font-file-name.gif](spacebar_width;width)
+	add_native_method("font", Method::CT_DYNAMIC, _font, 3, 4);
+
+    // ^image.text(x;y)[text]
+	add_native_method("text", Method::CT_DYNAMIC, _text, 3, 3);
+	
+    // ^image.ngth[text]
+	add_native_method("length", Method::CT_DYNAMIC, _length, 1, 1);
+	
+	// ^image.arc(center x;center y;width;height;start in degrees;end in degrees;color)
+	add_native_method("arc", Method::CT_DYNAMIC, _arc, 7, 7);
+
+	// ^image.sector(center x;center y;width;height;start in degrees;end in degrees;color)
+	add_native_method("sector", Method::CT_DYNAMIC, _sector, 7, 7);
+
+	// ^image.circle(center x;center y;r;color)
+	add_native_method("circle", Method::CT_DYNAMIC, _circle, 4, 4);
+
+	// ^image.copy[source](src x;src y;src w;src h;dst x;dst y[;dest w[;dest h[;tolerance]]])
+	add_native_method("copy", Method::CT_DYNAMIC, _copy, 1+2+2+2, (1+2+2+2)+2+1);
 }