third_party/icu/source/io/ufmt_cmn.cpp - cobalt - Git at Google

 // © 2016 and later: Unicode, Inc. and others.
 // License & terms of use: http://www.unicode.org/copyright.html
 /*
 ******************************************************************************
 *
 *   Copyright (C) 1998-2014, International Business Machines
 *   Corporation and others.  All Rights Reserved.
 *
 ******************************************************************************
 *
 * File ufmt_cmn.c
 *
 * Modification History:
 *
 *   Date        Name        Description
 *   12/02/98    stephen     Creation.
 *   03/12/99    stephen     Modified for new C API.
 *   03/15/99    stephen     Added defaultCPToUnicode, unicodeToDefaultCP
 *   07/19/99    stephen     Fixed bug in defaultCPToUnicode
 ******************************************************************************
 */

 #include "cstring.h"
 #include "cmemory.h"
 #include "ufmt_cmn.h"
 #include "unicode/uchar.h"
 #include "unicode/ucnv.h"
 #include "ustr_cnv.h"

 #if !UCONFIG_NO_CONVERSION


 #define DIGIT_0     0x0030
 #define DIGIT_9     0x0039
 #define LOWERCASE_A 0x0061
 #define UPPERCASE_A 0x0041
 #define LOWERCASE_Z 0x007A
 #define UPPERCASE_Z 0x005A

 int
 ufmt_digitvalue(UChar c)
 {
     if( ((c>=DIGIT_0)&&(c<=DIGIT_9)) ||
         ((c>=LOWERCASE_A)&&(c<=LOWERCASE_Z)) ||
         ((c>=UPPERCASE_A)&&(c<=UPPERCASE_Z))  )
     {
       return c - DIGIT_0 - (c >= 0x0041 ? (c >= 0x0061 ? 39 : 7) : 0);
     }
     else
     {
       return -1;
     }
 }

 UBool
 ufmt_isdigit(UChar     c,
              int32_t     radix)
 {
     int digitVal = ufmt_digitvalue(c);

     return (UBool)(digitVal < radix && digitVal >= 0);
 }

 #define TO_UC_DIGIT(a) a <= 9 ? (DIGIT_0 + a) : (0x0037 + a)
 #define TO_LC_DIGIT(a) a <= 9 ? (DIGIT_0 + a) : (0x0057 + a)

 void
 ufmt_64tou(UChar     *buffer,
           int32_t   *len,
           uint64_t  value,
           uint8_t  radix,
           UBool     uselower,
           int32_t   minDigits)
 {
     int32_t  length = 0;
     uint32_t digit;
     UChar    *left, *right, temp;

     do {
         digit = (uint32_t)(value % radix);
         value = value / radix;
         buffer[length++] = (UChar)(uselower ? TO_LC_DIGIT(digit)
             : TO_UC_DIGIT(digit));
     } while(value);

     /* pad with zeroes to make it minDigits long */
     if(minDigits != -1 && length < minDigits) {
         while(length < minDigits && length < *len)
             buffer[length++] = DIGIT_0;  /*zero padding */
     }

     /* reverse the buffer */
     left     = buffer;
     right = buffer + length;
     while(left < --right) {
         temp     = *left;
         *left++     = *right;
         *right     = temp;
     }

     *len = length;
 }

 void
 ufmt_ptou(UChar    *buffer,
           int32_t   *len,
           void      *value,
           UBool     uselower)
 {
     int32_t i;
     int32_t length = 0;
     uint8_t *ptrIdx = (uint8_t *)&value;

 #if U_IS_BIG_ENDIAN
     for (i = 0; i < (int32_t)sizeof(void *); i++)
 #else
     for (i = (int32_t)sizeof(void *)-1; i >= 0 ; i--)
 #endif
     {
         uint8_t byteVal = ptrIdx[i];
         uint16_t firstNibble = (uint16_t)(byteVal>>4);
         uint16_t secondNibble = (uint16_t)(byteVal&0xF);
         if (uselower) {
             buffer[length++]=TO_LC_DIGIT(firstNibble);
             buffer[length++]=TO_LC_DIGIT(secondNibble);
         }
         else {
             buffer[length++]=TO_UC_DIGIT(firstNibble);
             buffer[length++]=TO_UC_DIGIT(secondNibble);
         }
     }

     *len = length;
 }

 int64_t
 ufmt_uto64(const UChar     *buffer,
           int32_t     *len,
           int8_t     radix)
 {
     const UChar     *limit;
     int32_t         count;
     uint64_t        result;


     /* intialize parameters */
     limit     = buffer + *len;
     count     = 0;
     result    = 0;

     /* iterate through buffer */
     while(ufmt_isdigit(*buffer, radix) && buffer < limit) {

         /* read the next digit */
         result *= radix;
         result += ufmt_digitvalue(*buffer++);

         /* increment our count */
         ++count;
     }

     *len = count;
     return static_cast<int64_t>(result);
 }

 #define NIBBLE_PER_BYTE 2
 void *
 ufmt_utop(const UChar     *buffer,
           int32_t     *len)
 {
     int32_t count, resultIdx, incVal, offset;
     /* This union allows the pointer to be written as an array. */
     union {
         void *ptr;
         uint8_t bytes[sizeof(void*)];
     } result;

     /* intialize variables */
     count      = 0;
     offset     = 0;
     result.ptr = NULL;

     /* Skip the leading zeros */
     while(buffer[count] == DIGIT_0 || u_isspace(buffer[count])) {
         count++;
         offset++;
     }

     /* iterate through buffer, stop when you hit the end */
     while(count < *len && ufmt_isdigit(buffer[count], 16)) {
         /* increment the count consumed */
         ++count;
     }

     /* detect overflow */
     if (count - offset > (int32_t)(sizeof(void*)*NIBBLE_PER_BYTE)) {
         offset = count - (int32_t)(sizeof(void*)*NIBBLE_PER_BYTE);
     }

     /* Initialize the direction of the input */
 #if U_IS_BIG_ENDIAN
     incVal = -1;
     resultIdx = (int32_t)(sizeof(void*) - 1);
 #else
     incVal = 1;
     resultIdx = 0;
 #endif
     /* Write how much was consumed. */
     *len = count;
     while(--count >= offset) {
         /* Get the first nibble of the byte */
         uint8_t byte = (uint8_t)ufmt_digitvalue(buffer[count]);

         if (count > offset) {
             /* Get the second nibble of the byte when available */
             byte = (uint8_t)(byte + (ufmt_digitvalue(buffer[--count]) << 4));
         }
         /* Write the byte into the array */
         result.bytes[resultIdx] = byte;
         resultIdx += incVal;
     }

     return result.ptr;
 }

 UChar*
 ufmt_defaultCPToUnicode(const char *s, int32_t sSize,
                         UChar *target, int32_t tSize)
 {
     UChar *alias;
     UErrorCode status = U_ZERO_ERROR;
     UConverter *defConverter = u_getDefaultConverter(&status);

     if(U_FAILURE(status) || defConverter == 0)
         return 0;

     if(sSize <= 0) {
         sSize = static_cast<int32_t>(uprv_strlen(s)) + 1;
     }

     /* perform the conversion in one swoop */
     if(target != 0) {

         alias = target;
         ucnv_toUnicode(defConverter, &alias, alias + tSize, &s, s + sSize - 1,
             NULL, TRUE, &status);


         /* add the null terminator */
         *alias = 0x0000;
     }

     u_releaseDefaultConverter(defConverter);

     return target;
 }


 #endif
	// © 2016 and later: Unicode, Inc. and others.
	// License & terms of use: http://www.unicode.org/copyright.html
	/*
	******************************************************************************
	*
	* Copyright (C) 1998-2014, International Business Machines
	* Corporation and others. All Rights Reserved.
	*
	******************************************************************************
	*
	* File ufmt_cmn.c
	*
	* Modification History:
	*
	* Date Name Description
	* 12/02/98 stephen Creation.
	* 03/12/99 stephen Modified for new C API.
	* 03/15/99 stephen Added defaultCPToUnicode, unicodeToDefaultCP
	* 07/19/99 stephen Fixed bug in defaultCPToUnicode
	******************************************************************************
	*/

	#include "cstring.h"
	#include "cmemory.h"
	#include "ufmt_cmn.h"
	#include "unicode/uchar.h"
	#include "unicode/ucnv.h"
	#include "ustr_cnv.h"

	#if !UCONFIG_NO_CONVERSION


	#define DIGIT_0 0x0030
	#define DIGIT_9 0x0039
	#define LOWERCASE_A 0x0061
	#define UPPERCASE_A 0x0041
	#define LOWERCASE_Z 0x007A
	#define UPPERCASE_Z 0x005A

	int
	ufmt_digitvalue(UChar c)
	{
	if( ((c>=DIGIT_0)&&(c<=DIGIT_9)) \|\|
	((c>=LOWERCASE_A)&&(c<=LOWERCASE_Z)) \|\|
	((c>=UPPERCASE_A)&&(c<=UPPERCASE_Z)) )
	{
	return c - DIGIT_0 - (c >= 0x0041 ? (c >= 0x0061 ? 39 : 7) : 0);
	}
	else
	{
	return -1;
	}
	}

	UBool
	ufmt_isdigit(UChar c,
	int32_t radix)
	{
	int digitVal = ufmt_digitvalue(c);

	return (UBool)(digitVal < radix && digitVal >= 0);
	}

	#define TO_UC_DIGIT(a) a <= 9 ? (DIGIT_0 + a) : (0x0037 + a)
	#define TO_LC_DIGIT(a) a <= 9 ? (DIGIT_0 + a) : (0x0057 + a)

	void
	ufmt_64tou(UChar *buffer,
	int32_t *len,
	uint64_t value,
	uint8_t radix,
	UBool uselower,
	int32_t minDigits)
	{
	int32_t length = 0;
	uint32_t digit;
	UChar left, right, temp;

	do {
	digit = (uint32_t)(value % radix);
	value = value / radix;
	buffer[length++] = (UChar)(uselower ? TO_LC_DIGIT(digit)
	: TO_UC_DIGIT(digit));
	} while(value);

	/* pad with zeroes to make it minDigits long */
	if(minDigits != -1 && length < minDigits) {
	while(length < minDigits && length < *len)
	buffer[length++] = DIGIT_0; /zero padding /
	}

	/* reverse the buffer */
	left = buffer;
	right = buffer + length;
	while(left < --right) {
	temp = *left;
	left++ = right;
	*right = temp;
	}

	*len = length;
	}

	void
	ufmt_ptou(UChar *buffer,
	int32_t *len,
	void *value,
	UBool uselower)
	{
	int32_t i;
	int32_t length = 0;
	uint8_t ptrIdx = (uint8_t )&value;

	#if U_IS_BIG_ENDIAN
	for (i = 0; i < (int32_t)sizeof(void *); i++)
	#else
	for (i = (int32_t)sizeof(void *)-1; i >= 0 ; i--)
	#endif
	{
	uint8_t byteVal = ptrIdx[i];
	uint16_t firstNibble = (uint16_t)(byteVal>>4);
	uint16_t secondNibble = (uint16_t)(byteVal&0xF);
	if (uselower) {
	buffer[length++]=TO_LC_DIGIT(firstNibble);
	buffer[length++]=TO_LC_DIGIT(secondNibble);
	}
	else {
	buffer[length++]=TO_UC_DIGIT(firstNibble);
	buffer[length++]=TO_UC_DIGIT(secondNibble);
	}
	}

	*len = length;
	}

	int64_t
	ufmt_uto64(const UChar *buffer,
	int32_t *len,
	int8_t radix)
	{
	const UChar *limit;
	int32_t count;
	uint64_t result;


	/* intialize parameters */
	limit = buffer + *len;
	count = 0;
	result = 0;

	/* iterate through buffer */
	while(ufmt_isdigit(*buffer, radix) && buffer < limit) {

	/* read the next digit */
	result *= radix;
	result += ufmt_digitvalue(*buffer++);

	/* increment our count */
	++count;
	}

	*len = count;
	return static_cast<int64_t>(result);
	}

	#define NIBBLE_PER_BYTE 2
	void *
	ufmt_utop(const UChar *buffer,
	int32_t *len)
	{
	int32_t count, resultIdx, incVal, offset;
	/* This union allows the pointer to be written as an array. */
	union {
	void *ptr;
	uint8_t bytes[sizeof(void*)];
	} result;

	/* intialize variables */
	count = 0;
	offset = 0;
	result.ptr = NULL;

	/* Skip the leading zeros */
	while(buffer[count] == DIGIT_0 \|\| u_isspace(buffer[count])) {
	count++;
	offset++;
	}

	/* iterate through buffer, stop when you hit the end */
	while(count < *len && ufmt_isdigit(buffer[count], 16)) {
	/* increment the count consumed */
	++count;
	}

	/* detect overflow */
	if (count - offset > (int32_t)(sizeof(void)NIBBLE_PER_BYTE)) {
	offset = count - (int32_t)(sizeof(void)NIBBLE_PER_BYTE);
	}

	/* Initialize the direction of the input */
	#if U_IS_BIG_ENDIAN
	incVal = -1;
	resultIdx = (int32_t)(sizeof(void*) - 1);
	#else
	incVal = 1;
	resultIdx = 0;
	#endif
	/* Write how much was consumed. */
	*len = count;
	while(--count >= offset) {
	/* Get the first nibble of the byte */
	uint8_t byte = (uint8_t)ufmt_digitvalue(buffer[count]);

	if (count > offset) {
	/* Get the second nibble of the byte when available */
	byte = (uint8_t)(byte + (ufmt_digitvalue(buffer[--count]) << 4));
	}
	/* Write the byte into the array */
	result.bytes[resultIdx] = byte;
	resultIdx += incVal;
	}

	return result.ptr;
	}

	UChar*
	ufmt_defaultCPToUnicode(const char *s, int32_t sSize,
	UChar *target, int32_t tSize)
	{
	UChar *alias;
	UErrorCode status = U_ZERO_ERROR;
	UConverter *defConverter = u_getDefaultConverter(&status);

	if(U_FAILURE(status) \|\| defConverter == 0)
	return 0;

	if(sSize <= 0) {
	sSize = static_cast<int32_t>(uprv_strlen(s)) + 1;
	}

	/* perform the conversion in one swoop */
	if(target != 0) {

	alias = target;
	ucnv_toUnicode(defConverter, &alias, alias + tSize, &s, s + sSize - 1,
	NULL, TRUE, &status);


	/* add the null terminator */
	*alias = 0x0000;
	}

	u_releaseDefaultConverter(defConverter);

	return target;
	}


	#endif