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cmake/Source/cmVisualStudioGeneratorOpti...

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#include "cmVisualStudioGeneratorOptions.h"
#include <algorithm>
#include <map>
#include <sstream>
#include <utility>
#include <vector>
#include <cm/iterator>
#include <cmext/string_view>
#include "cmAlgorithms.h"
#include "cmLocalVisualStudioGenerator.h"
#include "cmOutputConverter.h"
#include "cmRange.h"
#include "cmStringAlgorithms.h"
#include "cmSystemTools.h"
static void cmVS10EscapeForMSBuild(std::string& ret)
{
cmSystemTools::ReplaceString(ret, ";", "%3B");
}
cmVisualStudioGeneratorOptions::cmVisualStudioGeneratorOptions(
cmLocalVisualStudioGenerator* lg, Tool tool, cmVS7FlagTable const* table,
cmVS7FlagTable const* extraTable)
: cmIDEOptions()
, LocalGenerator(lg)
, CurrentTool(tool)
{
// Store the given flag tables.
this->AddTable(table);
this->AddTable(extraTable);
// Preprocessor definitions are not allowed for linker tools.
this->AllowDefine = (tool != Linker);
// include directories are not allowed for linker tools.
this->AllowInclude = (tool != Linker);
// Slash options are allowed for VS.
this->AllowSlash = true;
this->FortranRuntimeDebug = false;
this->FortranRuntimeDLL = false;
this->FortranRuntimeMT = false;
this->UnknownFlagField = "AdditionalOptions";
}
void cmVisualStudioGeneratorOptions::AddTable(cmVS7FlagTable const* table)
{
if (table) {
for (auto& flag : this->FlagTable) {
if (!flag) {
flag = table;
break;
}
}
}
}
void cmVisualStudioGeneratorOptions::ClearTables()
{
for (auto& flag : this->FlagTable) {
flag = nullptr;
}
}
void cmVisualStudioGeneratorOptions::FixExceptionHandlingDefault()
{
// Exception handling is on by default because the platform file has
// "/EHsc" in the flags. Normally, that will override this
// initialization to off, but the user has the option of removing
// the flag to disable exception handling. When the user does
// remove the flag we need to override the IDE default of on.
if (!this->LocalGenerator->IsVFProj()) {
// by default VS puts <ExceptionHandling></ExceptionHandling> empty
// for a project, to make our projects look the same put a new line
// and space over for the closing </ExceptionHandling> as the default
// value
this->FlagMap["ExceptionHandling"] = "\n ";
} else {
this->FlagMap["ExceptionHandling"] = "0";
}
}
void cmVisualStudioGeneratorOptions::SetVerboseMakefile(bool verbose)
{
// If verbose makefiles have been requested and the /nologo option
// was not given explicitly in the flags we want to add an attribute
// to the generated project to disable logo suppression. Otherwise
// the GUI default is to enable suppression.
//
// In '.vfproj' files, the value of this attribute should be
// "FALSE", instead of an empty string.
if (verbose &&
this->FlagMap.find("SuppressStartupBanner") == this->FlagMap.end()) {
this->FlagMap["SuppressStartupBanner"] =
!this->LocalGenerator->IsVFProj() ? "" : "FALSE";
}
}
bool cmVisualStudioGeneratorOptions::UsingDebugInfo() const
{
if (this->CurrentTool != CSharpCompiler) {
return this->FlagMap.find("DebugInformationFormat") != this->FlagMap.end();
}
auto i = this->FlagMap.find("DebugType");
if (i != this->FlagMap.end()) {
if (i->second.size() == 1) {
return i->second[0] != "none"_s;
}
}
return false;
}
cm::optional<bool> cmVisualStudioGeneratorOptions::UsingDebugRuntime() const
{
cm::optional<bool> result;
if (const char* rtl = this->GetFlag("RuntimeLibrary")) {
result = strstr(rtl, "Debug") != nullptr;
}
return result;
}
bool cmVisualStudioGeneratorOptions::IsWinRt() const
{
return this->FlagMap.find("CompileAsWinRT") != this->FlagMap.end();
}
bool cmVisualStudioGeneratorOptions::IsManaged() const
{
return this->FlagMap.find("CompileAsManaged") != this->FlagMap.end();
}
bool cmVisualStudioGeneratorOptions::UsingUnicode() const
{
// Look for a _UNICODE definition.
return std::any_of(
this->Defines.begin(), this->Defines.end(), [](std::string const& di) {
return di == "_UNICODE"_s || cmHasLiteralPrefix(di, "_UNICODE=");
});
}
bool cmVisualStudioGeneratorOptions::UsingSBCS() const
{
// Look for a _SBCS definition.
return std::any_of(
this->Defines.begin(), this->Defines.end(), [](std::string const& di) {
return di == "_SBCS"_s || cmHasLiteralPrefix(di, "_SBCS=");
});
}
void cmVisualStudioGeneratorOptions::FixCudaCodeGeneration()
{
// Create an empty CodeGeneration field, and pass the the actual
// compile flags via additional options so that we have consistent
// behavior and avoid issues with MSBuild extensions injecting
// virtual code when we request real only.
FlagValue& code_gen_flag = this->FlagMap["CodeGeneration"];
code_gen_flag = "";
}
void cmVisualStudioGeneratorOptions::FixManifestUACFlags()
{
static std::string const ENABLE_UAC = "EnableUAC";
if (!HasFlag(ENABLE_UAC)) {
return;
}
const std::string uacFlag = GetFlag(ENABLE_UAC);
std::vector<std::string> subOptions;
cmsys::SystemTools::Split(uacFlag, subOptions, ' ');
if (subOptions.empty()) {
AddFlag(ENABLE_UAC, "true");
return;
}
if (subOptions.size() == 1 && subOptions[0] == "NO"_s) {
AddFlag(ENABLE_UAC, "false");
return;
}
std::map<std::string, std::string> uacMap;
uacMap["level"] = "UACExecutionLevel";
uacMap["uiAccess"] = "UACUIAccess";
std::map<std::string, std::string> uacExecuteLevelMap;
uacExecuteLevelMap["asInvoker"] = "AsInvoker";
uacExecuteLevelMap["highestAvailable"] = "HighestAvailable";
uacExecuteLevelMap["requireAdministrator"] = "RequireAdministrator";
for (std::string const& subopt : subOptions) {
std::vector<std::string> keyValue;
cmsys::SystemTools::Split(subopt, keyValue, '=');
if (keyValue.size() != 2 || (uacMap.find(keyValue[0]) == uacMap.end())) {
// ignore none key=value option or unknown flags
continue;
}
if (keyValue[1].front() == '\'' && keyValue[1].back() == '\'') {
keyValue[1] = keyValue[1].substr(
1, std::max(std::string::size_type(0), keyValue[1].length() - 2));
}
if (keyValue[0] == "level"_s) {
if (uacExecuteLevelMap.find(keyValue[1]) == uacExecuteLevelMap.end()) {
// unknown level value
continue;
}
AddFlag(uacMap[keyValue[0]], uacExecuteLevelMap[keyValue[1]]);
continue;
}
if (keyValue[0] == "uiAccess"_s) {
if (keyValue[1] != "true"_s && keyValue[1] != "false"_s) {
// unknown uiAccess value
continue;
}
AddFlag(uacMap[keyValue[0]], keyValue[1]);
continue;
}
// unknown sub option
}
AddFlag(ENABLE_UAC, "true");
}
void cmVisualStudioGeneratorOptions::Parse(const std::string& flags)
{
// Parse the input string as a windows command line since the string
// is intended for writing directly into the build files.
std::vector<std::string> args;
cmSystemTools::ParseWindowsCommandLine(flags.c_str(), args);
// Process flags that need to be represented specially in the IDE
// project file.
for (std::string const& ai : args) {
this->HandleFlag(ai);
}
}
void cmVisualStudioGeneratorOptions::ParseFinish()
{
if (this->CurrentTool == FortranCompiler) {
// "RuntimeLibrary" attribute values:
// "rtMultiThreaded", "0", /threads /libs:static
// "rtMultiThreadedDLL", "2", /threads /libs:dll
// "rtMultiThreadedDebug", "1", /threads /dbglibs /libs:static
// "rtMultiThreadedDebugDLL", "3", /threads /dbglibs /libs:dll
// These seem unimplemented by the IDE:
// "rtSingleThreaded", "4", /libs:static
// "rtSingleThreadedDLL", "10", /libs:dll
// "rtSingleThreadedDebug", "5", /dbglibs /libs:static
// "rtSingleThreadedDebugDLL", "11", /dbglibs /libs:dll
std::string rl =
cmStrCat("rtMultiThreaded", this->FortranRuntimeDebug ? "Debug" : "",
this->FortranRuntimeDLL ? "DLL" : "");
this->FlagMap["RuntimeLibrary"] = rl;
}
if (this->CurrentTool == CudaCompiler) {
auto i = this->FlagMap.find("CudaRuntime");
if (i != this->FlagMap.end() && i->second.size() == 1) {
std::string& cudaRuntime = i->second[0];
if (cudaRuntime == "static"_s) {
cudaRuntime = "Static";
} else if (cudaRuntime == "shared"_s) {
cudaRuntime = "Shared";
} else if (cudaRuntime == "none"_s) {
cudaRuntime = "None";
}
}
}
}
void cmVisualStudioGeneratorOptions::PrependInheritedString(
std::string const& key)
{
auto i = this->FlagMap.find(key);
if (i == this->FlagMap.end() || i->second.size() != 1) {
return;
}
std::string& value = i->second[0];
value = cmStrCat("%(", key, ") ", value);
}
void cmVisualStudioGeneratorOptions::Reparse(std::string const& key)
{
auto i = this->FlagMap.find(key);
if (i == this->FlagMap.end() || i->second.size() != 1) {
return;
}
std::string const original = i->second[0];
i->second[0] = "";
this->UnknownFlagField = key;
this->Parse(original);
}
void cmVisualStudioGeneratorOptions::StoreUnknownFlag(std::string const& flag)
{
// Look for Intel Fortran flags that do not map well in the flag table.
if (this->CurrentTool == FortranCompiler) {
if (flag == "/dbglibs"_s || flag == "-dbglibs"_s) {
this->FortranRuntimeDebug = true;
return;
}
if (flag == "/threads"_s || flag == "-threads"_s) {
this->FortranRuntimeMT = true;
return;
}
if (flag == "/libs:dll"_s || flag == "-libs:dll"_s) {
this->FortranRuntimeDLL = true;
return;
}
if (flag == "/libs:static"_s || flag == "-libs:static"_s) {
this->FortranRuntimeDLL = false;
return;
}
}
// This option is not known. Store it in the output flags.
std::string const opts = cmOutputConverter::EscapeWindowsShellArgument(
flag.c_str(),
cmOutputConverter::Shell_Flag_AllowMakeVariables |
cmOutputConverter::Shell_Flag_VSIDE);
this->AppendFlagString(this->UnknownFlagField, opts);
}
cmIDEOptions::FlagValue cmVisualStudioGeneratorOptions::TakeFlag(
std::string const& key)
{
FlagValue value;
auto i = this->FlagMap.find(key);
if (i != this->FlagMap.end()) {
value = i->second;
this->FlagMap.erase(i);
}
return value;
}
void cmVisualStudioGeneratorOptions::SetConfiguration(
const std::string& config)
{
this->Configuration = config;
}
const std::string& cmVisualStudioGeneratorOptions::GetConfiguration() const
{
return this->Configuration;
}
void cmVisualStudioGeneratorOptions::OutputPreprocessorDefinitions(
std::ostream& fout, int indent, const std::string& lang)
{
if (this->Defines.empty()) {
return;
}
std::string tag = "PreprocessorDefinitions";
if (lang == "CUDA"_s) {
tag = "Defines";
}
std::ostringstream oss;
if (!this->LocalGenerator->IsVFProj()) {
oss << "%(" << tag << ')';
}
auto de = cmRemoveDuplicates(this->Defines);
for (std::string const& di : cmMakeRange(this->Defines.cbegin(), de)) {
std::string define;
if (!this->LocalGenerator->IsVFProj()) {
// Escape the definition for MSBuild.
define = di;
cmVS10EscapeForMSBuild(define);
if (lang == "RC"_s) {
cmSystemTools::ReplaceString(define, "\"", "\\\"");
}
} else {
// Escape the definition for the compiler.
define = this->LocalGenerator->EscapeForShell(di, true);
}
// Store the flag in the project file.
oss << ';' << define;
}
this->OutputFlag(fout, indent, tag, oss.str());
}
void cmVisualStudioGeneratorOptions::OutputAdditionalIncludeDirectories(
std::ostream& fout, int indent, const std::string& lang)
{
if (this->Includes.empty()) {
return;
}
std::string tag = "AdditionalIncludeDirectories";
if (lang == "CUDA"_s) {
tag = "Include";
} else if (lang == "ASM_MASM"_s || lang == "ASM_NASM"_s) {
tag = "IncludePaths";
}
std::ostringstream oss;
const char* sep = "";
for (std::string include : this->Includes) {
// first convert all of the slashes
std::string::size_type pos = 0;
while ((pos = include.find('/', pos)) != std::string::npos) {
include[pos] = '\\';
pos++;
}
if (lang == "ASM_NASM"_s) {
include += '\\';
}
// Escape this include for the MSBuild.
if (!this->LocalGenerator->IsVFProj()) {
cmVS10EscapeForMSBuild(include);
}
oss << sep << include;
sep = ";";
if (lang == "Fortran"_s) {
include += "/$(ConfigurationName)";
oss << sep << include;
}
}
if (!this->LocalGenerator->IsVFProj()) {
oss << sep << "%(" << tag << ')';
}
this->OutputFlag(fout, indent, tag, oss.str());
}
void cmVisualStudioGeneratorOptions::OutputFlagMap(std::ostream& fout,
int indent)
{
for (auto const& m : this->FlagMap) {
std::ostringstream oss;
const char* sep = "";
for (std::string i : m.second) {
if (!this->LocalGenerator->IsVFProj()) {
cmVS10EscapeForMSBuild(i);
}
oss << sep << i;
sep = ";";
}
this->OutputFlag(fout, indent, m.first, oss.str());
}
}