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262 lines
7.0 KiB
262 lines
7.0 KiB
/*****************************************************************************
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*
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* at.c
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*
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* Arithmetic types.
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*
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*****************************************************************************/
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#include "m4.h"
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F STDCALL fWhiteTch(TCH tch);
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/*****************************************************************************
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*
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* AddExpAt
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*
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* Add the (unsigned) arithmetic value to the Exp hold.
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*
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* Since the value is never very large, we may as well be recursive.
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*
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*****************************************************************************/
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void STDCALL
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AddExpAt(AT at)
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{
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if (at > 9) {
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AddExpAt(at / 10);
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}
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AddExpTch((TCH)(TEXT('0') + at % 10));
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}
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/*****************************************************************************
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*
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* PushAtRadixCtch
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*
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* Push onto the input stream the specified arithmetic value, in the
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* requested radix, padded with zeros to the requested width.
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*
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* The type is always considered signed.
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*
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* If a negative value needs to be padded, the zeros are inserted after
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* the leading minus sign.
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*
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* QUIRK! Under AT&T, the leading minus sign does *not* contribute
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* to the count! I emulate this quirk...
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*
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* FEATURE! If the radix is invalid, force it to 10. AT&T doesn't
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* check the radix, but I will.
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*
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* QUIRK! Under AT&T, a negative width is treated as zero.
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* I emulate this quirk...
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*
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* INTERESTING HACK! Since characters are pushed LIFO, we can generate
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* the entire output string without needing to use a hold or anything
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* else gross like that.
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*
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*****************************************************************************/
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void STDCALL
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PushAtRadixCtch(AT atConvert, unsigned radix, CTCH ctch)
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{
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AT at;
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if ((int)ctch < 0) {
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#ifdef WARN_COMPAT
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Warn("Negative eval width %d silently converted to zero");
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#endif
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ctch = 0;
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}
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if (radix < 2 || radix > 36) {
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#ifdef WARN_COMPAT
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Warn("Invalid radix %d silently converted to 10");
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#endif
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radix = 10;
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}
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at = atConvert < 0 ? -atConvert : atConvert;
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do {
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TCH tch = (TCH)((unsigned long)at % radix);
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at = (unsigned long)at / radix;
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if (tch < 10) {
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PushTch((TCH)(tch + '0'));
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} else {
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PushTch((TCH)(tch + 'A' - 10));
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}
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ctch--;
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} while (at);
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while ((int)ctch > 0) {
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PushTch('0');
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--ctch;
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}
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if (atConvert < 0) {
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PushTch('-');
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}
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}
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/*****************************************************************************
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*
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* PushAt
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*
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* Common case where we want to display the value in base 10
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* with no padding.
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*
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*****************************************************************************/
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void STDCALL
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PushAt(AT at)
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{
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PushAtRadixCtch(at, 10, 0);
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}
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/*****************************************************************************
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*
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* SkipWhitePtok
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*
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* Skip leading whitespace in a token, *MODIFYING* the token in place.
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*
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*****************************************************************************/
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void STDCALL
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SkipWhitePtok(PTOK ptok)
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{
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AssertSPtok(ptok);
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Assert(fScratchPtok(ptok));
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while (!fNullPtok(ptok) && fWhiteTch(*ptchPtok(ptok))) {
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EatHeadPtokCtch(ptok, 1);
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}
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}
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/*****************************************************************************
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*
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* atRadixPtok
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*
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* Parse a number out of a token, given the radix. Leading whitespace
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* must already have been streipped.
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*
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* The token is *MODIFIED* to point to the first unconsumed character.
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* If no valid digits are found, then zero is returned and the token
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* is unchanged.
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*
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*****************************************************************************/
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AT STDCALL
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atRadixPtok(unsigned radix, PTOK ptok)
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{
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AT at = 0;
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while (!fNullPtok(ptok)) {
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AT atDigit = (TBYTE)*ptchPtok(ptok) - '0';
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if ((unsigned)atDigit > 9) {
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atDigit = ((TBYTE)*ptchPtok(ptok) | 0x20) - 'a';
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if ((unsigned)atDigit > 5) {
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break;
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}
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atDigit += 10;
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}
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if ((unsigned)atDigit > radix) {
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break;
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}
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at = at * radix + atDigit;
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EatHeadPtokCtch(ptok, 1);
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}
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return at;
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}
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/*****************************************************************************
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*
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* fEvalPtokPat
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*
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* Parse a number out of a token. Leading whitespace must already have
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* been stripped. A leading minus sign is not permitted. (`eval'
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* would have already parsed it out as a unary operator.) A leading
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* zero forces the value to be parsed as octal; a leading `0x' as hex.
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*
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* The token is *MODIFIED* to point to the first unconsumed character.
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* If no valid number is found, then zero is returned. Otherwise,
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* nonzero is returned and pat is filled with the parsed value.
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*
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*****************************************************************************/
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F STDCALL
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fEvalPtokPat(PTOK ptok, PAT pat)
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{
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AT at;
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AssertSPtok(ptok);
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Assert(fScratchPtok(ptok));
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if (!fNullPtok(ptok)) {
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PTCH ptchStart;
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unsigned radix;
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/*
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* Get the radix...
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*/
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if (*ptchPtok(ptok) == '0') {
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if (ctchSPtok(ptok) > 2 &&
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(ptchPtok(ptok)[1] | 0x20) == 'x') {
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EatHeadPtokCtch(ptok, 2);
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radix = 16;
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} else {
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radix = 8;
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}
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} else {
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radix = 10;
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}
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ptchStart = ptchPtok(ptok); /* Remember the start */
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at = atRadixPtok(radix, ptok);
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if (ptchStart == ptchPtok(ptok)) {
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if (radix == 16) {
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EatHeadPtokCtch(ptok, (CTCH)-2); /* Restore the `0x' */
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}
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return 0;
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} else {
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*pat = at;
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return 1;
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}
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}
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return 0; /* No number found */
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}
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/*****************************************************************************
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*
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* atTraditionalPtok
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*
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* Parse a number out of a token. Leading whitespace is ignored.
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* A leading minus sign is permitted. Octal and hex notation is
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* not permitted. No space is permitted between the optional
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* minus sign and the digit string. An invalid input is parsed as zero.
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*
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*****************************************************************************/
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AT STDCALL PURE
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atTraditionalPtok(PCTOK ptok)
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{
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TOK tok;
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AssertSPtok(ptok);
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DupStaticPtokPtok(&tok, ptok);
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D(tok.tsfl |= tsflScratch);
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SkipWhitePtok(&tok);
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if (!fNullPtok(&tok)) {
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AT at;
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BOOL fSign;
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if (*ptchPtok(&tok) == '-') {
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fSign = 1;
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EatHeadPtokCtch(&tok, 1);
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} else {
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fSign = 0;
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}
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at = atRadixPtok(10, &tok);
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if (fSign) {
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at = -at;
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}
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return at;
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} else {
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return 0;
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}
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}
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