// Copyright 2014 PDFium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // Original code by Matt McCutchen, see the LICENSE file. #include "BigUnsignedInABase.hh" BigUnsignedInABase::BigUnsignedInABase(const Digit *d, Index l, Base base) : NumberlikeArray<Digit>(d, l), base(base) { // Check the base if (base < 2) abort(); // Validate the digits. for (Index i = 0; i < l; i++) if (blk[i] >= base) abort(); // Eliminate any leading zeros we may have been passed. zapLeadingZeros(); } namespace { unsigned int bitLen(unsigned int x) { unsigned int len = 0; while (x > 0) { x >>= 1; len++; } return len; } unsigned int ceilingDiv(unsigned int a, unsigned int b) { return (a + b - 1) / b; } } BigUnsignedInABase::BigUnsignedInABase(const BigUnsigned &x, Base base) { // Check the base if (base < 2) abort(); this->base = base; // Get an upper bound on how much space we need int maxBitLenOfX = x.getLength() * BigUnsigned::N; int minBitsPerDigit = bitLen(base) - 1; int maxDigitLenOfX = ceilingDiv(maxBitLenOfX, minBitsPerDigit); len = maxDigitLenOfX; // Another change to comply with `staying in bounds'. allocate(len); // Get the space BigUnsigned x2(x), buBase(base); Index digitNum = 0; while (!x2.isZero()) { // Get last digit. This is like `lastDigit = x2 % buBase, x2 /= buBase'. BigUnsigned lastDigit(x2); lastDigit.divideWithRemainder(buBase, x2); // Save the digit. blk[digitNum] = lastDigit.toUnsignedShort(); // Move on. We can't run out of room: we figured it out above. digitNum++; } // Save the actual length. len = digitNum; } BigUnsignedInABase::operator BigUnsigned() const { BigUnsigned ans(0), buBase(base), temp; Index digitNum = len; while (digitNum > 0) { digitNum--; temp.multiply(ans, buBase); ans.add(temp, BigUnsigned(blk[digitNum])); } return ans; } BigUnsignedInABase::BigUnsignedInABase(const std::string &s, Base base) { // Check the base. if (base > 36) abort(); // Save the base. // This pattern is seldom seen in C++, but the analogous ``this.'' is common in Java. this->base = base; // `s.length()' is a `size_t', while `len' is a `NumberlikeArray::Index', // also known as an `unsigned int'. Some compilers warn without this cast. len = Index(s.length()); allocate(len); Index digitNum, symbolNumInString; for (digitNum = 0; digitNum < len; digitNum++) { symbolNumInString = len - 1 - digitNum; char theSymbol = s[symbolNumInString]; if (theSymbol >= '0' && theSymbol <= '9') blk[digitNum] = theSymbol - '0'; else if (theSymbol >= 'A' && theSymbol <= 'Z') blk[digitNum] = theSymbol - 'A' + 10; else if (theSymbol >= 'a' && theSymbol <= 'z') blk[digitNum] = theSymbol - 'a' + 10; else abort(); if (blk[digitNum] >= base) abort(); } zapLeadingZeros(); } BigUnsignedInABase::operator std::string() const { if (base > 36) abort(); if (len == 0) return std::string("0"); // Some compilers don't have push_back, so use a char * buffer instead. char *s = new char[len + 1]; s[len] = '\0'; Index digitNum, symbolNumInString; for (symbolNumInString = 0; symbolNumInString < len; symbolNumInString++) { digitNum = len - 1 - symbolNumInString; Digit theDigit = blk[digitNum]; if (theDigit < 10) s[symbolNumInString] = char('0' + theDigit); else s[symbolNumInString] = char('A' + theDigit - 10); } std::string s2(s); delete [] s; return s2; }