// Copyright 2016 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 copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com #include "xfa/fxfa/parser/cxfa_measurement.h" #include "core/fxcrt/fx_extension.h" namespace { constexpr float kPtToInch = 72; constexpr float kPtToCm = kPtToInch / 2.54f; constexpr float kPtToMm = kPtToCm / 10; constexpr float kPtToMp = 0.001f; constexpr float kPtToPc = 12; } // namespace CXFA_Measurement::CXFA_Measurement(const CFX_WideStringC& wsMeasure) { SetString(wsMeasure); } CXFA_Measurement::CXFA_Measurement() { Set(-1, XFA_UNIT_Unknown); } CXFA_Measurement::CXFA_Measurement(float fValue, XFA_UNIT eUnit) { Set(fValue, eUnit); } void CXFA_Measurement::SetString(const CFX_WideStringC& wsMeasure) { if (wsMeasure.IsEmpty()) { m_fValue = 0; m_eUnit = XFA_UNIT_Unknown; return; } int32_t iUsedLen = 0; int32_t iOffset = (wsMeasure.GetAt(0) == L'=') ? 1 : 0; float fValue = FXSYS_wcstof(wsMeasure.unterminated_c_str() + iOffset, wsMeasure.GetLength() - iOffset, &iUsedLen); XFA_UNIT eUnit = GetUnitFromString(wsMeasure.Mid( iOffset + iUsedLen, wsMeasure.GetLength() - (iOffset + iUsedLen))); Set(fValue, eUnit); } bool CXFA_Measurement::ToString(CFX_WideString* wsMeasure) const { switch (GetUnit()) { case XFA_UNIT_Mm: wsMeasure->Format(L"%.8gmm", GetValue()); return true; case XFA_UNIT_Pt: wsMeasure->Format(L"%.8gpt", GetValue()); return true; case XFA_UNIT_In: wsMeasure->Format(L"%.8gin", GetValue()); return true; case XFA_UNIT_Cm: wsMeasure->Format(L"%.8gcm", GetValue()); return true; case XFA_UNIT_Mp: wsMeasure->Format(L"%.8gmp", GetValue()); return true; case XFA_UNIT_Pc: wsMeasure->Format(L"%.8gpc", GetValue()); return true; case XFA_UNIT_Em: wsMeasure->Format(L"%.8gem", GetValue()); return true; case XFA_UNIT_Percent: wsMeasure->Format(L"%.8g%%", GetValue()); return true; default: wsMeasure->Format(L"%.8g", GetValue()); return false; } } float CXFA_Measurement::ToUnit(XFA_UNIT eUnit) const { float f; return ToUnitInternal(eUnit, &f) ? f : 0; } bool CXFA_Measurement::ToUnitInternal(XFA_UNIT eUnit, float* fValue) const { *fValue = GetValue(); XFA_UNIT eFrom = GetUnit(); if (eFrom == eUnit) return true; switch (eFrom) { case XFA_UNIT_Pt: break; case XFA_UNIT_Mm: *fValue *= kPtToMm; break; case XFA_UNIT_In: *fValue *= kPtToInch; break; case XFA_UNIT_Cm: *fValue *= kPtToCm; break; case XFA_UNIT_Mp: *fValue *= kPtToMp; break; case XFA_UNIT_Pc: *fValue *= kPtToPc; break; default: *fValue = 0; return false; } switch (eUnit) { case XFA_UNIT_Pt: return true; case XFA_UNIT_Mm: *fValue /= kPtToMm; return true; case XFA_UNIT_In: *fValue /= kPtToInch; return true; case XFA_UNIT_Cm: *fValue /= kPtToCm; return true; case XFA_UNIT_Mp: *fValue /= kPtToMp; return true; case XFA_UNIT_Pc: *fValue /= kPtToPc; return true; default: NOTREACHED(); return false; } } // static XFA_UNIT CXFA_Measurement::GetUnitFromString(const CFX_WideStringC& wsUnit) { if (wsUnit == L"mm") return XFA_UNIT_Mm; if (wsUnit == L"pt") return XFA_UNIT_Pt; if (wsUnit == L"in") return XFA_UNIT_In; if (wsUnit == L"cm") return XFA_UNIT_Cm; if (wsUnit == L"pc") return XFA_UNIT_Pc; if (wsUnit == L"mp") return XFA_UNIT_Mp; if (wsUnit == L"em") return XFA_UNIT_Em; if (wsUnit == L"%") return XFA_UNIT_Percent; return XFA_UNIT_Unknown; }