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July 14, 2005, at 08:37 PM by én írtam hát publikálom -
Added line 1:

[=

Changed lines 1933-1939 from:
to:

=]

July 14, 2005, at 08:35 PM by én írtam hát publikálom -
Added lines 1-1938:
  1. include "types.h" /* Type definitions */
  2. include "global_refs.h" /* Globals that we must see */
  3. include "pdf417.h"
  4. include "Codewrd0.h"
  5. include "Codewrd3.h"
  6. include "Codewrd6.h"
  7. include "subchar.h"
  8. include "errorlev.h"

extern unsigned char adex_value;

  1. define ERRBUFLEN 42
  2. define PADDING_WORD 900
  3. define MODE_TEXT_ALPHA 1
  4. define MODE_TEXT_LOWER 2
  5. define MODE_TEXT_MIXED 4
  6. define MODE_TEXT_PUNCT 8
  7. define MODE_NUMERIC 16
  8. define MODE_BYTE 32
  9. define MODE_BS 64

//const unsigned char *errbptr=(char *)&text_buff;

//const PDFBUFF *pdfbuff=(PDFBUFF *)(((char*)&text_buff)+ERRBUFFLEN);

const int errbptr=(int)&text_buff;

const int pdfbufp=ERRBUFLEN+4+(int)&text_buff;

/*FIXME 4 bytes*/

  1. define errbuff ((unsigned char *)errbptr)
  2. define pdfbuff ((PDFBUFF *)pdfbufp)

void mydeb_putc(unsigned char c)

{

	putchar((((c)&0xf0)>>4)+'0');

	putchar(((c)&0xf)+'0');

}

void mydeb_puti(unsigned int i)

{

	mydeb_putc(i>>8);

	mydeb_putc(i&0xff);

}

void crlf(){

	putchar('\n');

	putchar('\r');

}

void print_stack()

{

	unsigned char *ptrke;

	unsigned char *tmp;

	tmp=&adex_value;

	ptrke=tmp;

	tmp+=0x1f;

	crlf();

	for(;ptrke<tmp;ptrke++)

	{

		mydeb_putc(*ptrke);

	}

	crlf();

}

  1. define print_sp()

//#define print_sp() mydeb_puti(_asm("tsx\n pshh\n pula"));

void mydebug(char*ptr,unsigned char len)

{

	for(;len>0;len--)

	{

		mydeb_putc(*ptr);

		ptr++;

	}

	crlf();

}

/*-------------------------------------------------------*/

  1. define tmpvaruc0 (pdfbuff->tmp.uc[0])
  2. define tmpvaruc1 (pdfbuff->tmp.uc[1])
  3. define cols (pdfbuff->Cols)
  4. define errlev (pdfbuff->Errlev)
  5. define rows (pdfbuff->Rows)
  6. define line (pdfbuff->Line)
  7. define datalenke (pdfbuff->Datalen)
  8. define mrfifo_data (pdfbuff->Data)
  9. define mrfifo_len (pdfbuff->Len)
  10. define mrfifo_oldmode (pdfbuff->Oldmode)
  11. define mrfifo_datalen (pdfbuff->Fifolen)
  12. define mrfifo_round (pdfbuff->Round)

void mrfifo_init();/* does init for cv and output (err) as well */

void mrfifo_fill();

void mrfifo_shift(unsigned char count);

unsigned char mrfifo_newmode();

  1. define cv_text_data (pdfbuff->Text_data)
  2. define CV_NODATA 31

char cv_text_eat();

void cv_text_done();

void cv_text_start(unsigned char newmode);

char cv_num_worth();

char cv_num_eat();

void cv_num_start(unsigned char newmode);

/*void cv_num_done(); optimized out*/

char cv_byte_eat();

void cv_byte_start(unsigned char newmode);

/*void cv_byte_done(); optimized out */

char cv_bs_eat();

void cv_bs_start(unsigned char newmode);

/* void cv_bs_done(); optimized out */

  1. define output_prlen (pdfbuff->Prlen)

void output_add(int codeword);

void output_p_ercompute(int codeword);

void output_p_print(int codeword);

void math_num_prepare(char len);

int math_div_num(char start,char len);

int math_div_256(char len);

void math_num_print(char len);

  1. define panic(a) putchar('*');putchar(a);

/*-------------------------------------------------------*/

void mrfifo_loop()

{

	unsigned char newmode;

	while((mrfifo_datalen>0) || (mrfifo_len > 0 ))

	{

		mrfifo_fill();

		newmode=mrfifo_newmode();

		if(newmode != mrfifo_oldmode)

		{

			if((mrfifo_oldmode &0x0f)&&(!(newmode&0x0f)))

		/* it was text */

			{

				cv_text_done();

			}

			switch(newmode)

			{

				case MODE_TEXT_ALPHA:

				case MODE_TEXT_LOWER:

				case MODE_TEXT_MIXED:

				case MODE_TEXT_PUNCT:

					cv_text_start(newmode);

					break;

				case MODE_BYTE:

					cv_byte_start(newmode);

					break;

				case MODE_NUMERIC:

					cv_num_start(newmode);

					break;

				case MODE_BS:

					cv_bs_start(newmode);

					break;

				default:

					panic('A');

			}

		}

		switch(newmode){

			case MODE_TEXT_ALPHA:

			case MODE_TEXT_LOWER:

			case MODE_TEXT_MIXED:

			case MODE_TEXT_PUNCT:

				mrfifo_shift(cv_text_eat());

				break;

			case MODE_BYTE:

				mrfifo_shift(cv_byte_eat());

				break;

			case MODE_NUMERIC:

				mrfifo_shift(cv_num_eat());

				break;

			case MODE_BS:

				mrfifo_shift(cv_bs_eat());

				break;

			default:

				panic('B');

		}

	}

	if(mrfifo_oldmode &0x0f)

	{

		cv_text_done();

	}

}

void mrfifo_shift(unsigned char count)

{

	unsigned char i;

	if(count>mrfifo_len)

	{

		panic('D');

	}

	for(i=0;i<mrfifo_len-count;i++)

	{

		mrfifo_data[i]=mrfifo_data[i+count];

	}

	mrfifo_len-=count;

	mrfifo_fill();

}

void mrfifo_fill()

{

	while((mrfifo_len < (MRFIFO_DATA_LEN-1)) && (mrfifo_datalen > 0))

	{

		mrfifo_data[mrfifo_len]=getchar('a');

//putchar('f');

//mydeb_putc(mrfifo_data[mrfifo_len]);

		mrfifo_len++;

		mrfifo_datalen--;

	}

}

unsigned char mrfifo_p_onemode(unsigned char c)

{

	unsigned char mode;

	unsigned char i;

print_sp();

	mode=0;

	if(('0' <= c ) && ( c <= '9'))

	{

		mode |= cv_num_worth();

	}

	if((('A' <= c) && ( c <= 'Z')) || c == ' ')

	{

		mode|=MODE_TEXT_ALPHA;

	}



	if((('a' <= c) && ( c <= 'z')) || c == ' ')

	{

		mode|=MODE_TEXT_LOWER;

	}

	for(i=0;i<25;i++)

	{

		if(c==mixtab[i]) {

			mode |= MODE_TEXT_MIXED;

			break;

		}

	}

	for(i=0;i<29;i++)

	{

		if(c==puntab[i]) {

			mode |= MODE_TEXT_PUNCT;

			break;

		}

	}

	if(0==mode)

	{

		mode = MODE_BYTE;

	}

	return(mode);
  1. undef mode
  2. undef i

}

unsigned char mrfifo_newmode()

{

unsigned char i;

unsigned char thismode;

thismode=mrfifo_p_onemode(mrfifo_data[0]);

	if(thismode&MODE_NUMERIC)

	{

		return MODE_NUMERIC;

	}
  1. define nextmode mrfifo_p_onemode(mrfifo_data[1])
    if((mrfifo_oldmode&0xf)&&(nextmode&0xf)&&(thismode==MODE_BYTE))
    {
		return MODE_BS;
}
	if(thismode == MODE_BYTE)

	{

		return MODE_BYTE;

	}

	if(thismode&mrfifo_oldmode)

	{

		/* We could further optimize it, with nextmode, but won't */

		return mrfifo_oldmode;

	}

	if(thismode&nextmode)

	{

		unsigned char mode=thismode&nextmode;

		/* It could be optimized by oldmode, and the precedencies*/

		if(mode&MODE_TEXT_ALPHA)

		{

			return MODE_TEXT_ALPHA;

		}

		if(mode&MODE_TEXT_LOWER)

		{

			return MODE_TEXT_LOWER;

		}

		if(mode&MODE_TEXT_MIXED)

		{

			return MODE_TEXT_MIXED;

		}

		if(mode&MODE_TEXT_PUNCT)

		{

			return MODE_TEXT_PUNCT;

		}		

		panic('E');

	}

	for(i=0;thismode;i++)

	{

		thismode=thismode>>1;

	}

	thismode=1;

	thismode=thismode<<(i-1);

	return thismode;

}

void cv_text_p_eat(unsigned char c)

{

	if(cv_text_data != CV_NODATA)

	{

		output_add(cv_text_data*30+c);

		cv_text_data = CV_NODATA;

	} else {

		cv_text_data = c;

	}

}

char cv_text_eat()

{

	unsigned char i;

	switch(mrfifo_oldmode)

	{

		case MODE_TEXT_ALPHA:

			mrfifo_data[0]=mrfifo_data[0]-'A';

			break;

		case MODE_TEXT_LOWER:

			mrfifo_data[0]-='a';

			break;

		case MODE_TEXT_MIXED:

			for(i=0;i<25;i++)

			{

				if(mixtab[i]==mrfifo_data[0])

				{

					mrfifo_data[0]=i;

					break;

				}

			}

			break;

		case MODE_TEXT_PUNCT:

			for(i=0;i<29;i++)

			{

				if(puntab[i]==mrfifo_data[0])

				{

					mrfifo_data[0]=i;

					break;

				}

			}

			break;

		default:

			panic('F');

	}

	cv_text_p_eat(mrfifo_data[0]);

	return 1;

}

void cv_text_done()

{

//putchar('D');

	if(cv_text_data != CV_NODATA)

	{

		output_add(cv_text_data*30+29);

		if(mrfifo_oldmode == MODE_TEXT_PUNCT)

		{

			mrfifo_oldmode = MODE_TEXT_ALPHA;

		}

		/* it would be PS, but if byteshift follows, it is

		ignored, else it is not significant*/

	}

//putchar('d');

}

void cv_text_start(unsigned char newmode)

{

	unsigned char i,j;

	if(0 == (mrfifo_oldmode & 0xf )) /* it was not text mode */

	{

		output_add(900);

	} else {

		unsigned char nm;

		i=0xff;

		j=0xff;

		nm=newmode;

		for(;newmode;newmode = newmode >> 1)

		{

			i++;

		}

		if(i>3)

		{

			panic('G');

		}

		newmode=mrfifo_oldmode;

		for(;newmode;newmode = newmode >>1)

		{

			j++;

		}

		if(j>3)

		{

			panic('H');

		}

		newmode=nm;

		nm=i*2+j*8;

		if(txt_jumptab[nm])

		{

			cv_text_p_eat(txt_jumptab[nm]);

			if(txt_jumptab[nm+1])

			{

				cv_text_p_eat(txt_jumptab[nm+1]);

			}

		} else {

			panic('I');

		}

	}

	mrfifo_oldmode=newmode;

}

char cv_num_worth()

{

char i;

	for(i=0;i<mrfifo_len;i++)

	{

		if(('0' > mrfifo_data[i]) || (mrfifo_data[i] > '9'))

		{

			break;

		}

	}

	if(i>5) {

		return MODE_NUMERIC;

	}

	return 0;

}

char cv_num_eat()

{

char i;

	for(i=0;i<mrfifo_len;i++)

	{

		if(('0' > mrfifo_data[i]) || (mrfifo_data[i] > '9'))

		{

			break;

		}

	}

	math_num_print(i);

	return(i);

}

void cv_num_start(unsigned char newmode)

{

	output_add(902);

	mrfifo_oldmode=newmode;

}

char cv_byte_p_num()

{

char i;

	for(i=0;(i<mrfifo_len&&i<6);i++)

	{

		if(!(MODE_BYTE&&mrfifo_p_onemode(mrfifo_data[i])))

		{

			break;

		}

	}

	return i;

}

void cv_byte_emit(char len)

{

	for(;len>1;len--)

	{

		int sok;/*FIXME just for debug, can be eliminated*/

		sok=math_div_256(len);

		output_add(sok);

	//		output_add(math_div_256(len));

		mrfifo_shift(1);

	}

	mrfifo_shift(1);

}

char cv_byte_eat()

{

	if(cv_byte_p_num()>=6)

	{

		output_add(924);

	}

	while(cv_byte_p_num()>=6)

	{

		cv_byte_emit(6);

	}

	output_add(901);

	cv_byte_emit(cv_byte_p_num());

	return(0);

}

void cv_byte_start(unsigned char newmode)

{

/*FIXME*/

	mrfifo_oldmode=newmode;

}

int math_div_256(char len)

{

/*FIXME optimize out i*/

unsigned int modulo;

char i;

	modulo=*mrfifo_data;

	mrfifo_data[0]=0;

	for(i=2;i<len*2;i++)

	{

		modulo<<=4;/*shift mod*/

		if(!(i%2))

		{

			/*paros*/

			modulo+=((mrfifo_data[i/2])&0xf0)>>4;/*shift data*/

			/*div data -> data high*/

			mrfifo_data[i/2]=((char)(((modulo/900)<<4)&0xf0)|

				((mrfifo_data[i/2])&0x0f));

		} else {

			/*paratlan*/

			modulo+=(mrfifo_data[i/2])&0x0f;/*shift data*/

			/*div data -> data high*/

			mrfifo_data[i/2]=(((char)(modulo/900))&0x0f)|

				(0xf0&(mrfifo_data[i/2]));

		}

		modulo=modulo%900; /* mod mo*/

	}

	return modulo;

}

void math_num_print(char len)

{

char i;

signed char start=0;

math_num_prepare(len);

while(1)

{

	*((int*)(mrfifo_data+start))=math_div_num(start,len);

	start+=2;

	len -=2;

	for(i=0;i<len;i++)

	{

		if(mrfifo_data[i+start])

		{

			break;

		}

	}

	if(i>=len)

	{

		break;

	}

}

start-=2;

for(;start>=0;start-=2)

{

	output_add(*(int*)(mrfifo_data+start));

}

}

void math_num_prepare(char len)

{

char i;

	for(i=0;i<len;i++)

	{

		mrfifo_data[i]-='0';

	}

	mrfifo_data[0]+=10;

}

int math_div_num(char start,char len)

{

unsigned int modulo;

char i;

	modulo=(int)(mrfifo_data[start]);

	mrfifo_data[start]=0;

	for(i=1;i<len;i++)

	{

		modulo*=10;

		modulo+=mrfifo_data[i+start];

		mrfifo_data[i+start]=((char)(modulo/900));

		modulo=modulo%900;

	}

	return modulo;

}

char cv_bs_eat()

{

//putchar('y');

	output_add(mrfifo_data[0]);

	return 1;

}

void cv_bs_start(unsigned char newmode)

{

//putchar('z');

	output_add(913);

	return;

}

void output_add(int codeword)

{

//putchar('o');

	if(2==mrfifo_round)

	{

//putchar('O');

		output_p_errcompute(codeword);

		output_p_print(codeword);

	}

	output_prlen++;

}

void err_init()

{

char i;

	for(i=0;i<ERRBUFLEN;i++)

	{

		errbuff[i]=0;

	}

}

unsigned int readerr(unsigned char k)

{

	return (((k)%2)?

		((*((unsigned int*)(errbuff+((k)*3/2))))&0x0fff)

	:

		((*((unsigned int*)(errbuff+((k)*3/2))))>>4));

}

void writerr(unsigned char k,unsigned int i)

{

unsigned char *n=errbuff+k*3/2;

	if((k)%2)

	{

			*(n+1)=i&0xff;

			*n=(i>>8)|((*n)&0xf0);

	} else {

			*n=i>>4;

			*(n+1)=((i&0xf)<<4)|

				((*(n+1))&0x0f);

	}

}

unsigned long int onehalf_mul(unsigned int t1,unsigned char i)

{

	unsigned long int t2;

	unsigned int t3;

	unsigned char aj[2];

	*((int *)aj)=levelx[errlev][i];

	/* (px+q)*(rx+t) = prx^2+(qr+tp)x+tq; and pr is char */

	/* t1 = px +q , a[j] = rx +t

	 * p=t1>>8, q=t1&0x0f

	 * r=aj[0], t=aj[1]

	 */

	/*pr*/

	//!!t2=p*r, ok

	t2=(t1>>8)*aj[0];

	//!!t2=p*r*x

	t2<<=8;

	/*qr +tp*/

	//!!t3=q*r

	t3=(t1&0x0ff)*aj[0];

//mydeb_puti(t3);

//mydeb_puti(t2);

	/*

	 * t2=t2+t3

	 * t2=p*r*x+q*r

	 */

	t2+=t3;

// /* +tp*/

	/*

	 * t3=p*t

	 */

	t3=(t1>>8)*aj[1];

//mydeb_puti(t3);

//mydeb_puti(t2);

	/*

	 * t2=t2+t3

	 * t2=p*r*x+q*r+p*t

	 */

	t2+=t3;

	/*

	 * t2=t2*x

	 * t2=p*r*x^2+(q*r+p*t)*x

	 */

	t2<<=8;

// /* tq */

	/*

	 * t3=q*t

	 */

	t3=(t1&0x0ff)*aj[1];

//mydeb_puti(t3);

	/*

	 * t2=t2+t3

	 * t2=p*r*x^2+(q*r+p*t)*x+q*t

	 */

	t2+=t3;

//mydeb_puti(t2);

	t2%=929;

	return t2;

}

  1. define KA (2<<(errlev))

void output_p_errcompute(int codeword)

{

	unsigned int t1;

	unsigned char aj[2];

	unsigned long int t2;

	unsigned char *t2c=((unsigned char *)&t2);

	unsigned int t3;

	signed char i; //FIXME if errlev<=5

	t1=(codeword+readerr(KA-1))%929;

//putchar('e');

//mydeb_puti(codeword);

//mydeb_puti(t1);

//mydeb_puti(readerr(KA-1));

//crlf();

	for(i=KA-1;i>0;i--)

	{

		t2=onehalf_mul(t1,i);

//mydeb_puti(t2);

		t3=929-t2;

		writerr(i,(readerr(i-1)+t3)%929);

//putchar('E');

//mydeb_puti(t1);

//mydeb_puti(t2);

//mydeb_puti(t3);

//mydeb_puti(levelx[errlev][i]);

//mydebug(errbuff,24);

	}

	t2=onehalf_mul(t1,0);

	t3=929-t2;

	writerr(0,t3%929);

//putchar('F');

//mydeb_puti(t2);

//mydeb_puti(t3);

//mydebug(errbuff,24);

}

void output_p_print(int codeword)

{

	if(0==((output_prlen % cols)))

	{

		output_newline();

	}

	print_codeword(codeword);

}

void error_print()

{

signed char i;

	for(i=KA-1;i>=0;i--)

	{

putchar('e');

		if(readerr(i))

		{

			output_p_print(929-readerr(i));

		} else {

			output_p_print(0);

		}

	}

}

void mrfifo_done()

{

	/* pad chars */

	while(output_prlen<(rows*cols-(2<<errlev)))

	{

		output_add(PADDING_WORD);

	}

	/* error chars */

	error_print();

	output_newline();

}

void mrfifo_init()

{

	unsigned char i;

	for(i=0;i<MRFIFO_DATA_LEN;i++)

	{

		mrfifo_data[i]=0;

	}

	mrfifo_len=0;

	mrfifo_oldmode=MODE_TEXT_ALPHA;

	mrfifo_datalen=0;

	cv_text_data=CV_NODATA;

	output_prlen=1;

}

void output_start()

{

line=0;

	bc_init_shifter();

	print_codeword(STARTW);

	print_codeword(0);

	rows=((output_prlen+(2<<errlev)+cols/*would be (cols - 1) but + 1 for the length word */)/cols);

	if(rows<3)

	{

		rows=3;

	}

	output_add(rows*cols-(2<<errlev));

}

void output_newline()

{

	print_codeword(right_side());

	print_stopword();

	bc_print_graph();

crlf();

	line++;

	if(line < rows)

	{

		bc_init_shifter();

		print_codeword(STARTW);

		print_codeword(left_side());

	}

}

//void output_end()

//{

// output_prlen,cols,rows,line

//

// /*FIXME print the error code */

//

//}

/*-------------------------------------------------------*/

extern const unsigned char bc_itf_font[];

void mydebug(char*ptr,unsigned char len);

extern const unsigned char bc_offsets[];

void bc_pdf417()

{

	unsigned char ptrke;

crlf();

crlf();

crlf();

//putchar('A');

	err_init();

	mydeb_puti(_asm("tsx\n pshh\n pula"));

	for(ptrke=1;ptrke<0x20;ptrke++)

	{

		*((&adex_value)+ptrke)=0xdd;

	};

print_stack();

	line_spacing=0;

	bc.height/=8;

	mrfifo_init();

	cols = getchar('b');

	errlev = getchar('c');

	datalenke=0;

	datalenke = getchar('d');

	datalenke =datalenke << 8;

	datalenke += (signed int)((unsigned char)getchar('e'));

	if (datalenke == 0)	{ return ; }	//0 length is not allowed

	if (errlev>4)		{ errlev=4 ; }	//allowed errorlevel is 0...4

	if (cols < 5) 		{ cols=5 ; }	//0 width is not allowed

	cols -= 4 ;

	if (cols > MAXCOL )	{ cols=MAXCOL ; }



	print_mode.byte = 0;		//any magnification off

//proba();

	mrfifo_round=1;

	mrfifo_datalen=datalenke;

	mrfifo_loop();

	mrfifo_round=2;

	output_start();

	mrfifo_init();

	mrfifo_datalen=datalenke;

	mrfifo_loop();

	mrfifo_done();

//proba();

	bc.height*=8;

print_stack();

}

void print_codeword(codeword)

{

	unsigned char n;

unsigned int nn;

putchar('P');

mydeb_puti(codeword);

	switch (line % 3)

			{

			case 0:	codeword=codew0[codeword];

				break;

			case 1:	codeword=codew3[codeword];

				break;

			case 2:	codeword=codew6[codeword];

				break;

			}



	nn = 0x8000 ;

	for (  n = 0 ; n < 16 ; n ++ )

		{

		if (codeword&nn) bc_shift_bit_1(); else bc_shift_bit_0();

		nn = nn >> 1;

	}

	bc_shift_bit_0();

}

void print_stopword()

{

	print_codeword(STOPW);

	bc_shift_bit_1();

}

unsigned int left_side()

{

	//putchar('L');

	//mydeb_putc(line);

	//mydeb_putc(rows);

	//mydeb_putc(cols);

	//mydeb_putc(errlev);

	switch (line % 3)

	{

		case 0:	return ((10*line) + rows/3);

		case 1:	return ((10*line) + (errlev*3) + (rows%3));

		case 2:	return (60 + cols);

	}

}

unsigned int right_side()

{

	switch (line % 3)

	{

		case 0:	return ((10*line) + cols);

		case 1:	return ((10*line) + (rows/3));

		case 2:	return (60 + (errlev*3) + (rows%3));

	}

}

unsigned char proba()

{

line=0;

//getchar('E');

	bc_init_shifter();

//getchar('D');

	print_codeword(STARTW);

	print_codeword(left_side());

	print_codeword(453);

	print_codeword(841);

	print_codeword(63);

	print_codeword(753);

	print_codeword(897);

	print_codeword(88);

	print_codeword(right_side());

	print_stopword();

//getchar('F');

	bc_print_graph();

//getchar('G');

}

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Page last modified on July 14, 2005, at 08:37 PM