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// Copyright 2017 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 "core/fpdfapi/page/cpdf_stitchfunc.h"
#include <utility>
#include "core/fpdfapi/parser/cpdf_array.h"
#include "core/fpdfapi/parser/cpdf_dictionary.h"
#include "core/fxcrt/fx_memory.h"
namespace {
constexpr uint32_t kRequiredNumInputs = 1;
} // namespace
CPDF_StitchFunc::CPDF_StitchFunc() : CPDF_Function(Type::kType3Stitching) {}
CPDF_StitchFunc::~CPDF_StitchFunc() {
FX_Free(m_pBounds);
FX_Free(m_pEncode);
}
bool CPDF_StitchFunc::v_Init(CPDF_Object* pObj,
std::set<CPDF_Object*>* pVisited) {
if (m_nInputs != kRequiredNumInputs)
return false;
CPDF_Dictionary* pDict = pObj->GetDict();
if (!pDict)
return false;
const CPDF_Array* pFunctionsArray = pDict->GetArrayFor("Functions");
if (!pFunctionsArray)
return false;
const CPDF_Array* pBoundsArray = pDict->GetArrayFor("Bounds");
if (!pBoundsArray)
return false;
const CPDF_Array* pEncodeArray = pDict->GetArrayFor("Encode");
if (!pEncodeArray)
return false;
const uint32_t nSubs = pFunctionsArray->GetCount();
if (nSubs == 0)
return false;
// Check array sizes. The checks are slightly relaxed to allow the "Bounds"
// and "Encode" arrays to have more than the required number of elements.
{
if (pBoundsArray->GetCount() < nSubs - 1)
return false;
FX_SAFE_UINT32 nExpectedEncodeSize = nSubs;
nExpectedEncodeSize *= 2;
if (!nExpectedEncodeSize.IsValid())
return false;
if (pEncodeArray->GetCount() < nExpectedEncodeSize.ValueOrDie())
return false;
}
// Check sub-functions.
{
Optional<uint32_t> nOutputs;
for (uint32_t i = 0; i < nSubs; ++i) {
CPDF_Object* pSub = pFunctionsArray->GetDirectObjectAt(i);
if (pSub == pObj)
return false;
std::unique_ptr<CPDF_Function> pFunc(CPDF_Function::Load(pSub, pVisited));
if (!pFunc)
return false;
// Check that the input dimensionality is 1, and that all output
// dimensionalities are the same.
if (pFunc->CountInputs() != kRequiredNumInputs)
return false;
uint32_t nFuncOutputs = pFunc->CountOutputs();
if (nFuncOutputs == 0)
return false;
if (nOutputs) {
if (nFuncOutputs != *nOutputs)
return false;
} else {
nOutputs = nFuncOutputs;
}
m_pSubFunctions.push_back(std::move(pFunc));
}
m_nOutputs = *nOutputs;
}
m_pBounds = FX_Alloc(float, nSubs + 1);
m_pBounds[0] = m_pDomains[0];
for (uint32_t i = 0; i < nSubs - 1; i++)
m_pBounds[i + 1] = pBoundsArray->GetFloatAt(i);
m_pBounds[nSubs] = m_pDomains[1];
m_pEncode = FX_Alloc2D(float, nSubs, 2);
for (uint32_t i = 0; i < nSubs * 2; i++)
m_pEncode[i] = pEncodeArray->GetFloatAt(i);
return true;
}
bool CPDF_StitchFunc::v_Call(const float* inputs, float* results) const {
float input = inputs[0];
size_t i;
for (i = 0; i < m_pSubFunctions.size() - 1; i++) {
if (input < m_pBounds[i + 1])
break;
}
input = Interpolate(input, m_pBounds[i], m_pBounds[i + 1], m_pEncode[i * 2],
m_pEncode[i * 2 + 1]);
int nresults;
return m_pSubFunctions[i]->Call(&input, kRequiredNumInputs, results,
&nresults);
}
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