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pdfium / pdfium / refs/heads/chromium/3002 / . / xfa / fxfa / fm2js / xfa_simpleexpression.cpp
blob: 686ddaa17dc57ed5eda0bbd60d4b5462563c8f36 [file] [log] [blame]
// 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 copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com
#include "xfa/fxfa/fm2js/xfa_simpleexpression.h"
#include <utility>
#include "core/fxcrt/fx_ext.h"
namespace {
const FX_WCHAR* const gs_lpStrExpFuncName[] = {
L"foxit_xfa_formcalc_runtime.assign_value_operator",
L"foxit_xfa_formcalc_runtime.logical_or_operator",
L"foxit_xfa_formcalc_runtime.logical_and_operator",
L"foxit_xfa_formcalc_runtime.equality_operator",
L"foxit_xfa_formcalc_runtime.notequality_operator",
L"foxit_xfa_formcalc_runtime.less_operator",
L"foxit_xfa_formcalc_runtime.lessequal_operator",
L"foxit_xfa_formcalc_runtime.greater_operator",
L"foxit_xfa_formcalc_runtime.greaterequal_operator",
L"foxit_xfa_formcalc_runtime.plus_operator",
L"foxit_xfa_formcalc_runtime.minus_operator",
L"foxit_xfa_formcalc_runtime.multiple_operator",
L"foxit_xfa_formcalc_runtime.divide_operator",
L"foxit_xfa_formcalc_runtime.positive_operator",
L"foxit_xfa_formcalc_runtime.negative_operator",
L"foxit_xfa_formcalc_runtime.logical_not_operator",
L"foxit_xfa_formcalc_runtime.",
L"foxit_xfa_formcalc_runtime.dot_accessor",
L"foxit_xfa_formcalc_runtime.dotdot_accessor",
L"foxit_xfa_formcalc_runtime.concat_fm_object",
L"foxit_xfa_formcalc_runtime.is_fm_object",
L"foxit_xfa_formcalc_runtime.is_fm_array",
L"foxit_xfa_formcalc_runtime.get_fm_value",
L"foxit_xfa_formcalc_runtime.get_fm_jsobj",
L"foxit_xfa_formcalc_runtime.fm_var_filter",
};
struct XFA_FMBuildInFunc {
uint32_t m_uHash;
const FX_WCHAR* m_buildinfunc;
};
const XFA_FMBuildInFunc g_BuildInFuncs[] = {
{0x0001f1f5, L"At"}, {0x00020b9c, L"FV"},
{0x00021aef, L"If"}, {0x00023ee6, L"PV"},
{0x04b5c9ee, L"Encode"}, {0x08e96685, L"DateFmt"},
{0x09f99db6, L"Abs"}, {0x09f9e583, L"Apr"},
{0x09fa043e, L"Avg"}, {0x0a9782a0, L"Get"},
{0x0b1b09df, L"Len"}, {0x0b3543a6, L"Max"},
{0x0b356ca4, L"Min"}, {0x0b358b60, L"Mod"},
{0x0b4fded4, L"NPV"}, {0x0b846bf1, L"Pmt"},
{0x0b8494f9, L"Put"}, {0x0bb8df5d, L"Ref"},
{0x0bd37a99, L"Str"}, {0x0bd37fb5, L"Sum"},
{0x1048469b, L"Cterm"}, {0x11e03660, L"Exists"},
{0x126236e6, L"Post"}, {0x127c6661, L"PPmt"},
{0x193ade3e, L"Right"}, {0x1ec8ab2c, L"Rate"},
{0x20e476dc, L"IsoTime2Num"}, {0x23eb6816, L"TimeFmt"},
{0x24fb17b0, L"LocalDateFmt"}, {0x28dee6e9, L"Format"},
{0x2d0890b8, L"Term"}, {0x2d71b00f, L"Time"},
{0x2f890fb1, L"Num2Time"}, {0x3767511d, L"Ceil"},
{0x3ffd1941, L"LocalTimeFmt"}, {0x442f68c8, L"Round"},
{0x46fd1128, L"Eval"}, {0x4d629440, L"Date2Num"},
{0x4dcf25f8, L"Concat"}, {0x4e00255d, L"UnitValue"},
{0x55a5cc29, L"Lower"}, {0x5e43e04c, L"WordNum"},
{0x620ce6ba, L"Ipmt"}, {0x6f544d49, L"Count"},
{0x7e241013, L"Within"}, {0x9b9a6e2b, L"IsoDate2Num"},
{0xb2c941c2, L"UnitType"}, {0xb598a1f7, L"Uuid"},
{0xbde9abde, L"Date"}, {0xc0010b80, L"Num2Date"},
{0xc1f6144c, L"Upper"}, {0xc44028f7, L"Oneof"},
{0xc62c1b2c, L"Space"}, {0xd0ff50f9, L"HasValue"},
{0xd1537042, L"Floor"}, {0xd2ac9cf1, L"Time2Num"},
{0xd907aee5, L"Num2GMTime"}, {0xdf24f7c4, L"Decode"},
{0xe2664803, L"Substr"}, {0xe3e7b528, L"Stuff"},
{0xe6792d4e, L"Rtrim"}, {0xe8c23f5b, L"Parse"},
{0xea18d121, L"Choose"}, {0xebfef69c, L"Replace"},
{0xf5ad782b, L"Left"}, {0xf7bb2248, L"Ltrim"},
};
struct XFA_FMSOMMethod {
uint32_t m_uHash;
const FX_WCHAR* m_wsSomMethodName;
uint32_t m_dParameters;
};
const XFA_FMSOMMethod gs_FMSomMethods[] = {
{0x00000068, L"h", 0x01},
{0x00000077, L"w", 0x01},
{0x00000078, L"x", 0x01},
{0x00000079, L"y", 0x01},
{0x05eb5b0f, L"pageSpan", 0x01},
{0x10f1b1bd, L"page", 0x01},
{0x3bf1c2a5, L"absPageSpan", 0x01},
{0x3c752495, L"verify", 0x0d},
{0x44c352ad, L"formNodes", 0x01},
{0x5775c2cc, L"absPageInBatch", 0x01},
{0x5ee00996, L"setElement", 0x01},
{0x7033bfd5, L"insert", 0x03},
{0x8c5feb32, L"sheetInBatch", 0x01},
{0x8f3a8379, L"sheet", 0x01},
{0x92dada4f, L"saveFilteredXML", 0x01},
{0x9cab7cae, L"remove", 0x01},
{0xa68635f1, L"sign", 0x61},
{0xaac241c8, L"isRecordGroup", 0x01},
{0xd8ed1467, L"clear", 0x01},
{0xda12e518, L"append", 0x01},
{0xe74f0653, L"absPage", 0x01},
};
} // namespace
CFX_WideStringC XFA_FM_EXPTypeToString(
XFA_FM_SimpleExpressionType simpleExpType) {
return gs_lpStrExpFuncName[simpleExpType];
}
CXFA_FMSimpleExpression::CXFA_FMSimpleExpression(uint32_t line, XFA_FM_TOKEN op)
: m_line(line), m_op(op) {}
void CXFA_FMSimpleExpression::ToJavaScript(CFX_WideTextBuf& javascript) {}
void CXFA_FMSimpleExpression::ToImpliedReturnJS(CFX_WideTextBuf& javascript) {}
XFA_FM_TOKEN CXFA_FMSimpleExpression::GetOperatorToken() const {
return m_op;
}
CXFA_FMNullExpression::CXFA_FMNullExpression(uint32_t line)
: CXFA_FMSimpleExpression(line, TOKnull) {}
void CXFA_FMNullExpression::ToJavaScript(CFX_WideTextBuf& javascript) {
javascript << L"null";
}
CXFA_FMNumberExpression::CXFA_FMNumberExpression(uint32_t line,
CFX_WideStringC wsNumber)
: CXFA_FMSimpleExpression(line, TOKnumber), m_wsNumber(wsNumber) {}
CXFA_FMNumberExpression::~CXFA_FMNumberExpression() {}
void CXFA_FMNumberExpression::ToJavaScript(CFX_WideTextBuf& javascript) {
javascript << m_wsNumber;
}
CXFA_FMStringExpression::CXFA_FMStringExpression(uint32_t line,
CFX_WideStringC wsString)
: CXFA_FMSimpleExpression(line, TOKstring), m_wsString(wsString) {}
CXFA_FMStringExpression::~CXFA_FMStringExpression() {}
void CXFA_FMStringExpression::ToJavaScript(CFX_WideTextBuf& javascript) {
CFX_WideString tempStr(m_wsString);
if (tempStr.GetLength() > 2) {
javascript.AppendChar(L'\"');
FX_WCHAR oneChar;
for (int16_t i = 1; i < tempStr.GetLength() - 1; i++) {
oneChar = tempStr[i];
switch (oneChar) {
case L'\"': {
i++;
javascript << L"\\\"";
} break;
case 0x0d:
break;
case 0x0a: {
javascript << L"\\n";
} break;
default: { javascript.AppendChar(oneChar); } break;
}
}
javascript.AppendChar(L'\"');
} else {
javascript << tempStr;
}
}
CXFA_FMIdentifierExpression::CXFA_FMIdentifierExpression(
uint32_t line,
CFX_WideStringC wsIdentifier)
: CXFA_FMSimpleExpression(line, TOKidentifier),
m_wsIdentifier(wsIdentifier) {}
CXFA_FMIdentifierExpression::~CXFA_FMIdentifierExpression() {}
void CXFA_FMIdentifierExpression::ToJavaScript(CFX_WideTextBuf& javascript) {
CFX_WideString tempStr(m_wsIdentifier);
if (tempStr == L"$") {
tempStr = L"this";
} else if (tempStr == L"!") {
tempStr = L"xfa.datasets";
} else if (tempStr == L"$data") {
tempStr = L"xfa.datasets.data";
} else if (tempStr == L"$event") {
tempStr = L"xfa.event";
} else if (tempStr == L"$form") {
tempStr = L"xfa.form";
} else if (tempStr == L"$host") {
tempStr = L"xfa.host";
} else if (tempStr == L"$layout") {
tempStr = L"xfa.layout";
} else if (tempStr == L"$template") {
tempStr = L"xfa.template";
} else if (tempStr[0] == L'!') {
tempStr = EXCLAMATION_IN_IDENTIFIER + tempStr.Mid(1);
}
javascript << tempStr;
}
CXFA_FMUnaryExpression::CXFA_FMUnaryExpression(
uint32_t line,
XFA_FM_TOKEN op,
std::unique_ptr<CXFA_FMSimpleExpression> pExp)
: CXFA_FMSimpleExpression(line, op), m_pExp(std::move(pExp)) {}
CXFA_FMUnaryExpression::~CXFA_FMUnaryExpression() {}
void CXFA_FMUnaryExpression::ToJavaScript(CFX_WideTextBuf& javascript) {}
CXFA_FMBinExpression::CXFA_FMBinExpression(
uint32_t line,
XFA_FM_TOKEN op,
std::unique_ptr<CXFA_FMSimpleExpression> pExp1,
std::unique_ptr<CXFA_FMSimpleExpression> pExp2)
: CXFA_FMSimpleExpression(line, op),
m_pExp1(std::move(pExp1)),
m_pExp2(std::move(pExp2)) {}
CXFA_FMBinExpression::~CXFA_FMBinExpression() {}
void CXFA_FMBinExpression::ToJavaScript(CFX_WideTextBuf& javascript) {}
CXFA_FMAssignExpression::CXFA_FMAssignExpression(
uint32_t line,
XFA_FM_TOKEN op,
std::unique_ptr<CXFA_FMSimpleExpression> pExp1,
std::unique_ptr<CXFA_FMSimpleExpression> pExp2)
: CXFA_FMBinExpression(line, op, std::move(pExp1), std::move(pExp2)) {}
void CXFA_FMAssignExpression::ToJavaScript(CFX_WideTextBuf& javascript) {
javascript << L"if (";
javascript << gs_lpStrExpFuncName[ISFMOBJECT];
javascript << L"(";
m_pExp1->ToJavaScript(javascript);
javascript << L"))\n{\n";
javascript << gs_lpStrExpFuncName[ASSIGN];
javascript << L"(";
m_pExp1->ToJavaScript(javascript);
javascript << L", ";
m_pExp2->ToJavaScript(javascript);
javascript << L");\n}\n";
CFX_WideTextBuf tempExp1;
m_pExp1->ToJavaScript(tempExp1);
if (m_pExp1->GetOperatorToken() == TOKidentifier &&
tempExp1.AsStringC() != L"this") {
javascript << L"else\n{\n";
javascript << tempExp1;
javascript << L" = ";
javascript << gs_lpStrExpFuncName[ASSIGN];
javascript << L"(";
m_pExp1->ToJavaScript(javascript);
javascript << L", ";
m_pExp2->ToJavaScript(javascript);
javascript << L");\n}\n";
}
}
void CXFA_FMAssignExpression::ToImpliedReturnJS(CFX_WideTextBuf& javascript) {
javascript << L"if (";
javascript << gs_lpStrExpFuncName[ISFMOBJECT];
javascript << L"(";
m_pExp1->ToJavaScript(javascript);
javascript << L"))\n{\n";
javascript << RUNTIMEFUNCTIONRETURNVALUE;
javascript << L" = ";
javascript << gs_lpStrExpFuncName[ASSIGN];
javascript << L"(";
m_pExp1->ToJavaScript(javascript);
javascript << L", ";
m_pExp2->ToJavaScript(javascript);
javascript << L");\n}\n";
CFX_WideTextBuf tempExp1;
m_pExp1->ToJavaScript(tempExp1);
if (m_pExp1->GetOperatorToken() == TOKidentifier &&
tempExp1.AsStringC() != L"this") {
javascript << L"else\n{\n";
javascript << RUNTIMEFUNCTIONRETURNVALUE;
javascript << L" = ";
javascript << tempExp1;
javascript << L" = ";
javascript << gs_lpStrExpFuncName[ASSIGN];
javascript << L"(";
m_pExp1->ToJavaScript(javascript);
javascript << L", ";
m_pExp2->ToJavaScript(javascript);
javascript << L");\n}\n";
}
}
CXFA_FMLogicalOrExpression::CXFA_FMLogicalOrExpression(
uint32_t line,
XFA_FM_TOKEN op,
std::unique_ptr<CXFA_FMSimpleExpression> pExp1,
std::unique_ptr<CXFA_FMSimpleExpression> pExp2)
: CXFA_FMBinExpression(line, op, std::move(pExp1), std::move(pExp2)) {}
void CXFA_FMLogicalOrExpression::ToJavaScript(CFX_WideTextBuf& javascript) {
javascript << gs_lpStrExpFuncName[LOGICALOR];
javascript << L"(";
m_pExp1->ToJavaScript(javascript);
javascript << L", ";
m_pExp2->ToJavaScript(javascript);
javascript << L")";
}
CXFA_FMLogicalAndExpression::CXFA_FMLogicalAndExpression(
uint32_t line,
XFA_FM_TOKEN op,
std::unique_ptr<CXFA_FMSimpleExpression> pExp1,
std::unique_ptr<CXFA_FMSimpleExpression> pExp2)
: CXFA_FMBinExpression(line, op, std::move(pExp1), std::move(pExp2)) {}
void CXFA_FMLogicalAndExpression::ToJavaScript(CFX_WideTextBuf& javascript) {
javascript << gs_lpStrExpFuncName[LOGICALAND];
javascript << L"(";
m_pExp1->ToJavaScript(javascript);
javascript << L", ";
m_pExp2->ToJavaScript(javascript);
javascript << L")";
}
CXFA_FMEqualityExpression::CXFA_FMEqualityExpression(
uint32_t line,
XFA_FM_TOKEN op,
std::unique_ptr<CXFA_FMSimpleExpression> pExp1,
std::unique_ptr<CXFA_FMSimpleExpression> pExp2)
: CXFA_FMBinExpression(line, op, std::move(pExp1), std::move(pExp2)) {}
void CXFA_FMEqualityExpression::ToJavaScript(CFX_WideTextBuf& javascript) {
switch (m_op) {
case TOKeq:
case TOKkseq:
javascript << gs_lpStrExpFuncName[EQUALITY];
break;
case TOKne:
case TOKksne:
javascript << gs_lpStrExpFuncName[NOTEQUALITY];
break;
default:
ASSERT(false);
break;
}
javascript << L"(";
m_pExp1->ToJavaScript(javascript);
javascript << L", ";
m_pExp2->ToJavaScript(javascript);
javascript << L")";
}
CXFA_FMRelationalExpression::CXFA_FMRelationalExpression(
uint32_t line,
XFA_FM_TOKEN op,
std::unique_ptr<CXFA_FMSimpleExpression> pExp1,
std::unique_ptr<CXFA_FMSimpleExpression> pExp2)
: CXFA_FMBinExpression(line, op, std::move(pExp1), std::move(pExp2)) {}
void CXFA_FMRelationalExpression::ToJavaScript(CFX_WideTextBuf& javascript) {
switch (m_op) {
case TOKlt:
case TOKkslt:
javascript << gs_lpStrExpFuncName[LESS];
break;
case TOKgt:
case TOKksgt:
javascript << gs_lpStrExpFuncName[GREATER];
break;
case TOKle:
case TOKksle:
javascript << gs_lpStrExpFuncName[LESSEQUAL];
break;
case TOKge:
case TOKksge:
javascript << gs_lpStrExpFuncName[GREATEREQUAL];
break;
default:
ASSERT(false);
break;
}
javascript << L"(";
m_pExp1->ToJavaScript(javascript);
javascript << L", ";
m_pExp2->ToJavaScript(javascript);
javascript << L")";
}
CXFA_FMAdditiveExpression::CXFA_FMAdditiveExpression(
uint32_t line,
XFA_FM_TOKEN op,
std::unique_ptr<CXFA_FMSimpleExpression> pExp1,
std::unique_ptr<CXFA_FMSimpleExpression> pExp2)
: CXFA_FMBinExpression(line, op, std::move(pExp1), std::move(pExp2)) {}
void CXFA_FMAdditiveExpression::ToJavaScript(CFX_WideTextBuf& javascript) {
switch (m_op) {
case TOKplus:
javascript << gs_lpStrExpFuncName[PLUS];
break;
case TOKminus:
javascript << gs_lpStrExpFuncName[MINUS];
break;
default:
ASSERT(false);
break;
}
javascript << L"(";
m_pExp1->ToJavaScript(javascript);
javascript << L", ";
m_pExp2->ToJavaScript(javascript);
javascript << L")";
}
CXFA_FMMultiplicativeExpression::CXFA_FMMultiplicativeExpression(
uint32_t line,
XFA_FM_TOKEN op,
std::unique_ptr<CXFA_FMSimpleExpression> pExp1,
std::unique_ptr<CXFA_FMSimpleExpression> pExp2)
: CXFA_FMBinExpression(line, op, std::move(pExp1), std::move(pExp2)) {}
void CXFA_FMMultiplicativeExpression::ToJavaScript(
CFX_WideTextBuf& javascript) {
switch (m_op) {
case TOKmul:
javascript << gs_lpStrExpFuncName[MULTIPLE];
break;
case TOKdiv:
javascript << gs_lpStrExpFuncName[DIVIDE];
break;
default:
ASSERT(false);
break;
}
javascript << L"(";
m_pExp1->ToJavaScript(javascript);
javascript << L", ";
m_pExp2->ToJavaScript(javascript);
javascript << L")";
}
CXFA_FMPosExpression::CXFA_FMPosExpression(
uint32_t line,
std::unique_ptr<CXFA_FMSimpleExpression> pExp)
: CXFA_FMUnaryExpression(line, TOKplus, std::move(pExp)) {}
void CXFA_FMPosExpression::ToJavaScript(CFX_WideTextBuf& javascript) {
javascript << gs_lpStrExpFuncName[POSITIVE];
javascript << L"(";
m_pExp->ToJavaScript(javascript);
javascript << L")";
}
CXFA_FMNegExpression::CXFA_FMNegExpression(
uint32_t line,
std::unique_ptr<CXFA_FMSimpleExpression> pExp)
: CXFA_FMUnaryExpression(line, TOKminus, std::move(pExp)) {}
void CXFA_FMNegExpression::ToJavaScript(CFX_WideTextBuf& javascript) {
javascript << gs_lpStrExpFuncName[NEGATIVE];
javascript << L"(";
m_pExp->ToJavaScript(javascript);
javascript << L")";
}
CXFA_FMNotExpression::CXFA_FMNotExpression(
uint32_t line,
std::unique_ptr<CXFA_FMSimpleExpression> pExp)
: CXFA_FMUnaryExpression(line, TOKksnot, std::move(pExp)) {}
void CXFA_FMNotExpression::ToJavaScript(CFX_WideTextBuf& javascript) {
javascript << gs_lpStrExpFuncName[NOT];
javascript << L"(";
m_pExp->ToJavaScript(javascript);
javascript << L")";
}
CXFA_FMCallExpression::CXFA_FMCallExpression(
uint32_t line,
std::unique_ptr<CXFA_FMSimpleExpression> pExp,
std::vector<std::unique_ptr<CXFA_FMSimpleExpression>>&& pArguments,
bool bIsSomMethod)
: CXFA_FMUnaryExpression(line, TOKcall, std::move(pExp)),
m_bIsSomMethod(bIsSomMethod),
m_Arguments(std::move(pArguments)) {}
CXFA_FMCallExpression::~CXFA_FMCallExpression() {}
bool CXFA_FMCallExpression::IsBuildInFunc(CFX_WideTextBuf* funcName) {
uint32_t uHash = FX_HashCode_GetW(funcName->AsStringC(), true);
const XFA_FMBuildInFunc* pEnd = g_BuildInFuncs + FX_ArraySize(g_BuildInFuncs);
const XFA_FMBuildInFunc* pFunc =
std::lower_bound(g_BuildInFuncs, pEnd, uHash,
[](const XFA_FMBuildInFunc& func, uint32_t hash) {
return func.m_uHash < hash;
});
if (pFunc < pEnd && uHash == pFunc->m_uHash) {
funcName->Clear();
*funcName << pFunc->m_buildinfunc;
return true;
}
return false;
}
uint32_t CXFA_FMCallExpression::IsMethodWithObjParam(
const CFX_WideStringC& methodName) {
uint32_t uHash = FX_HashCode_GetW(methodName, false);
XFA_FMSOMMethod somMethodWithObjPara;
uint32_t parameters = 0x00;
int32_t iStart = 0,
iEnd = (sizeof(gs_FMSomMethods) / sizeof(gs_FMSomMethods[0])) - 1;
int32_t iMid = (iStart + iEnd) / 2;
do {
iMid = (iStart + iEnd) / 2;
somMethodWithObjPara = gs_FMSomMethods[iMid];
if (uHash == somMethodWithObjPara.m_uHash) {
parameters = somMethodWithObjPara.m_dParameters;
break;
} else if (uHash < somMethodWithObjPara.m_uHash) {
iEnd = iMid - 1;
} else {
iStart = iMid + 1;
}
} while (iStart <= iEnd);
return parameters;
}
void CXFA_FMCallExpression::ToJavaScript(CFX_WideTextBuf& javascript) {
CFX_WideTextBuf funcName;
m_pExp->ToJavaScript(funcName);
if (m_bIsSomMethod) {
javascript << funcName;
javascript << L"(";
uint32_t methodPara = IsMethodWithObjParam(funcName.AsStringC());
if (methodPara > 0) {
for (size_t i = 0; i < m_Arguments.size(); ++i) {
// Currently none of our expressions use objects for a parameter over
// the 6th. Make sure we don't overflow the shift when doing this
// check. If we ever need more the 32 object params we can revisit.
if (i < 32 && (methodPara & (0x01 << i)) > 0) {
javascript << gs_lpStrExpFuncName[GETFMJSOBJ];
} else {
javascript << gs_lpStrExpFuncName[GETFMVALUE];
}
javascript << L"(";
const auto& expr = m_Arguments[i];
expr->ToJavaScript(javascript);
javascript << L")";
if (i + 1 < m_Arguments.size()) {
javascript << L", ";
}
}
} else {
for (const auto& expr : m_Arguments) {
javascript << gs_lpStrExpFuncName[GETFMVALUE];
javascript << L"(";
expr->ToJavaScript(javascript);
javascript << L")";
if (expr != m_Arguments.back())
javascript << L", ";
}
}
javascript << L")";
} else {
bool isEvalFunc = false;
bool isExistsFunc = false;
if (IsBuildInFunc(&funcName)) {
if (funcName.AsStringC() == L"Eval") {
isEvalFunc = true;
javascript << L"eval.call(this, ";
javascript << gs_lpStrExpFuncName[CALL];
javascript << L"Translate";
} else if (funcName.AsStringC() == L"Exists") {
isExistsFunc = true;
javascript << gs_lpStrExpFuncName[CALL];
javascript << funcName;
} else {
javascript << gs_lpStrExpFuncName[CALL];
javascript << funcName;
}
} else {
javascript << funcName;
}
javascript << L"(";
if (isExistsFunc) {
javascript << L"\n(\nfunction ()\n{\ntry\n{\n";
if (!m_Arguments.empty()) {
const auto& expr = m_Arguments[0];
javascript << L"return ";
expr->ToJavaScript(javascript);
javascript << L";\n}\n";
} else {
javascript << L"return 0;\n}\n";
}
javascript
<< L"catch(accessExceptions)\n{\nreturn 0;\n}\n}\n).call(this)\n";
} else {
for (const auto& expr : m_Arguments) {
expr->ToJavaScript(javascript);
if (expr != m_Arguments.back())
javascript << L", ";
}
}
javascript << L")";
if (isEvalFunc) {
javascript << L")";
}
}
}
CXFA_FMDotAccessorExpression::CXFA_FMDotAccessorExpression(
uint32_t line,
std::unique_ptr<CXFA_FMSimpleExpression> pAccessor,
XFA_FM_TOKEN op,
CFX_WideStringC wsIdentifier,
std::unique_ptr<CXFA_FMSimpleExpression> pIndexExp)
: CXFA_FMBinExpression(line,
op,
std::move(pAccessor),
std::move(pIndexExp)),
m_wsIdentifier(wsIdentifier) {}
CXFA_FMDotAccessorExpression::~CXFA_FMDotAccessorExpression() {}
void CXFA_FMDotAccessorExpression::ToJavaScript(CFX_WideTextBuf& javascript) {
javascript << gs_lpStrExpFuncName[DOT];
javascript << L"(";
if (m_pExp1) {
m_pExp1->ToJavaScript(javascript);
} else {
javascript << L"null";
}
javascript << L", ";
javascript << L"\"";
if (m_pExp1 && m_pExp1->GetOperatorToken() == TOKidentifier) {
m_pExp1->ToJavaScript(javascript);
}
javascript << L"\", ";
if (m_op == TOKdotscream) {
javascript << L"\"#";
javascript << m_wsIdentifier;
javascript << L"\", ";
} else if (m_op == TOKdotstar) {
javascript << L"\"*\", ";
} else if (m_op == TOKcall) {
javascript << L"\"\", ";
} else {
javascript << L"\"";
javascript << m_wsIdentifier;
javascript << L"\", ";
}
m_pExp2->ToJavaScript(javascript);
javascript << L")";
}
CXFA_FMIndexExpression::CXFA_FMIndexExpression(
uint32_t line,
XFA_FM_AccessorIndex accessorIndex,
std::unique_ptr<CXFA_FMSimpleExpression> pIndexExp,
bool bIsStarIndex)
: CXFA_FMUnaryExpression(line, TOKlbracket, std::move(pIndexExp)),
m_accessorIndex(accessorIndex),
m_bIsStarIndex(bIsStarIndex) {}
void CXFA_FMIndexExpression::ToJavaScript(CFX_WideTextBuf& javascript) {
switch (m_accessorIndex) {
case ACCESSOR_NO_INDEX:
javascript << L"0";
break;
case ACCESSOR_NO_RELATIVEINDEX:
javascript << L"1";
break;
case ACCESSOR_POSITIVE_INDEX:
javascript << L"2";
break;
case ACCESSOR_NEGATIVE_INDEX:
javascript << L"3";
break;
default:
javascript << L"0";
}
if (!m_bIsStarIndex) {
javascript << L", ";
if (m_pExp) {
m_pExp->ToJavaScript(javascript);
} else {
javascript << L"0";
}
}
}
CXFA_FMDotDotAccessorExpression::CXFA_FMDotDotAccessorExpression(
uint32_t line,
std::unique_ptr<CXFA_FMSimpleExpression> pAccessor,
XFA_FM_TOKEN op,
CFX_WideStringC wsIdentifier,
std::unique_ptr<CXFA_FMSimpleExpression> pIndexExp)
: CXFA_FMBinExpression(line,
op,
std::move(pAccessor),
std::move(pIndexExp)),
m_wsIdentifier(wsIdentifier) {}
CXFA_FMDotDotAccessorExpression::~CXFA_FMDotDotAccessorExpression() {}
void CXFA_FMDotDotAccessorExpression::ToJavaScript(
CFX_WideTextBuf& javascript) {
javascript << gs_lpStrExpFuncName[DOTDOT];
javascript << L"(";
m_pExp1->ToJavaScript(javascript);
javascript << L", ";
javascript << L"\"";
if (m_pExp1 && m_pExp1->GetOperatorToken() == TOKidentifier) {
m_pExp1->ToJavaScript(javascript);
}
javascript << L"\", ";
javascript << L"\"";
javascript << m_wsIdentifier;
javascript << L"\", ";
m_pExp2->ToJavaScript(javascript);
javascript << L")";
}
CXFA_FMMethodCallExpression::CXFA_FMMethodCallExpression(
uint32_t line,
std::unique_ptr<CXFA_FMSimpleExpression> pAccessorExp1,
std::unique_ptr<CXFA_FMSimpleExpression> pCallExp)
: CXFA_FMBinExpression(line,
TOKdot,
std::move(pAccessorExp1),
std::move(pCallExp)) {}
void CXFA_FMMethodCallExpression::ToJavaScript(CFX_WideTextBuf& javascript) {
javascript << L"(\nfunction ()\n{\n";
javascript << L"var method_return_value = null;\n";
javascript << L"var accessor_object = ";
m_pExp1->ToJavaScript(javascript);
javascript << L";\n";
javascript << L"if (";
javascript << gs_lpStrExpFuncName[ISFMARRAY];
javascript << L"(accessor_object))\n{\n";
javascript << L"for(var index = accessor_object.length - 1; index > 1; "
L"index--)\n{\n";
javascript << L"method_return_value = accessor_object[index].";
m_pExp2->ToJavaScript(javascript);
javascript << L";\n}\n}\n";
javascript << L"else\n{\nmethod_return_value = accessor_object.";
m_pExp2->ToJavaScript(javascript);
javascript << L";\n}\n";
javascript << L"return method_return_value;\n";
javascript << L"}\n).call(this)";
}