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fuchsia / third_party / cmake / refs/heads/upstream/master / . / Source / cmCMakePresetsGraph.cxx
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/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying
file Copyright.txt or https://cmake.org/licensing for details. */
#include "cmCMakePresetsGraph.h"
#include <algorithm>
#include <cassert>
#include <cstddef>
#include <functional>
#include <iostream>
#include <iterator>
#include <utility>
#include <cm/memory>
#include <cm/string_view>
#include "cmsys/RegularExpression.hxx"
#include "cmCMakePresetsErrors.h"
#include "cmCMakePresetsGraphInternal.h"
#include "cmStringAlgorithms.h"
#include "cmSystemTools.h"
#define CHECK_EXPAND(out, field, expanders, version) \
do { \
switch (ExpandMacros(field, expanders, version)) { \
case ExpandMacroResult::Error: \
return false; \
case ExpandMacroResult::Ignore: \
out.reset(); \
return true; \
case ExpandMacroResult::Ok: \
break; \
} \
} while (false)
namespace {
enum class CycleStatus
{
Unvisited,
InProgress,
Verified,
};
using ConfigurePreset = cmCMakePresetsGraph::ConfigurePreset;
using BuildPreset = cmCMakePresetsGraph::BuildPreset;
using TestPreset = cmCMakePresetsGraph::TestPreset;
using PackagePreset = cmCMakePresetsGraph::PackagePreset;
using WorkflowPreset = cmCMakePresetsGraph::WorkflowPreset;
template <typename T>
using PresetPair = cmCMakePresetsGraph::PresetPair<T>;
using ExpandMacroResult = cmCMakePresetsGraphInternal::ExpandMacroResult;
using MacroExpander = cmCMakePresetsGraphInternal::MacroExpander;
using MacroExpanderVector = cmCMakePresetsGraphInternal::MacroExpanderVector;
using BaseMacroExpander = cmCMakePresetsGraphInternal::BaseMacroExpander;
template <typename T>
using PresetMacroExpander =
cmCMakePresetsGraphInternal::PresetMacroExpander<T>;
using cmCMakePresetsGraphInternal::ExpandMacros;
void InheritString(std::string& child, const std::string& parent)
{
if (child.empty()) {
child = parent;
}
}
template <typename T>
void InheritOptionalValue(cm::optional<T>& child,
const cm::optional<T>& parent)
{
if (!child) {
child = parent;
}
}
template <typename T>
void InheritVector(std::vector<T>& child, const std::vector<T>& parent)
{
if (child.empty()) {
child = parent;
}
}
/**
* Check preset inheritance for cycles (using a DAG check algorithm) while
* also bubbling up fields through the inheritance hierarchy, then verify
* that each preset has the required fields, either directly or through
* inheritance.
*/
template <class T>
bool VisitPreset(
T& preset,
std::map<std::string, cmCMakePresetsGraph::PresetPair<T>>& presets,
std::map<std::string, CycleStatus> cycleStatus, cmCMakePresetsGraph& graph)
{
switch (cycleStatus[preset.Name]) {
case CycleStatus::InProgress:
cmCMakePresetsErrors::CYCLIC_PRESET_INHERITANCE(preset.Name,
&graph.parseState);
return false;
case CycleStatus::Verified:
return true;
default:
break;
}
cycleStatus[preset.Name] = CycleStatus::InProgress;
if (preset.Environment.count("") != 0) {
cmCMakePresetsErrors::INVALID_PRESET_NAMED(preset.Name, &graph.parseState);
return false;
}
bool result = preset.VisitPresetBeforeInherit();
if (!result) {
cmCMakePresetsErrors::INVALID_PRESET_NAMED(preset.Name, &graph.parseState);
return false;
}
for (auto const& i : preset.Inherits) {
auto parent = presets.find(i);
if (parent == presets.end()) {
cmCMakePresetsErrors::INVALID_PRESET_NAMED(preset.Name,
&graph.parseState);
return false;
}
auto& parentPreset = parent->second.Unexpanded;
if (!preset.OriginFile->ReachableFiles.count(parentPreset.OriginFile)) {
cmCMakePresetsErrors::INHERITED_PRESET_UNREACHABLE_FROM_FILE(
preset.Name, &graph.parseState);
return false;
}
if (!VisitPreset(parentPreset, presets, cycleStatus, graph)) {
return false;
}
result = preset.VisitPresetInherit(parentPreset);
if (!result) {
cmCMakePresetsErrors::INVALID_PRESET_NAMED(preset.Name,
&graph.parseState);
return false;
}
for (auto const& v : parentPreset.Environment) {
preset.Environment.insert(v);
}
if (!preset.ConditionEvaluator) {
preset.ConditionEvaluator = parentPreset.ConditionEvaluator;
}
}
if (preset.ConditionEvaluator && preset.ConditionEvaluator->IsNull()) {
preset.ConditionEvaluator.reset();
}
result = preset.VisitPresetAfterInherit(graph.GetVersion(preset),
&graph.parseState);
if (!result) {
cmCMakePresetsErrors::INVALID_PRESET_NAMED(preset.Name, &graph.parseState);
return false;
}
cycleStatus[preset.Name] = CycleStatus::Verified;
return true;
}
template <class T>
bool ComputePresetInheritance(
std::map<std::string, cmCMakePresetsGraph::PresetPair<T>>& presets,
cmCMakePresetsGraph& graph)
{
std::map<std::string, CycleStatus> cycleStatus;
for (auto const& it : presets) {
cycleStatus[it.first] = CycleStatus::Unvisited;
}
for (auto& it : presets) {
auto& preset = it.second.Unexpanded;
if (!VisitPreset<T>(preset, presets, cycleStatus, graph)) {
return false;
}
}
return true;
}
constexpr const char* ValidPrefixes[] = {
"",
"env",
"penv",
"vendor",
};
bool PrefixesValidMacroNamespace(const std::string& str)
{
return std::any_of(
std::begin(ValidPrefixes), std::end(ValidPrefixes),
[&str](const char* prefix) -> bool { return cmHasPrefix(prefix, str); });
}
bool IsValidMacroNamespace(const std::string& str)
{
return std::any_of(
std::begin(ValidPrefixes), std::end(ValidPrefixes),
[&str](const char* prefix) -> bool { return str == prefix; });
}
ExpandMacroResult VisitEnv(std::string& value, CycleStatus& status,
MacroExpanderVector const& macroExpanders,
int version);
template <class T>
class EnvironmentMacroExpander : public MacroExpander
{
std::map<std::string, CycleStatus>& EnvCycles;
cm::optional<T>& Out;
MacroExpanderVector& MacroExpanders;
public:
EnvironmentMacroExpander(MacroExpanderVector& macroExpanders,
cm::optional<T>& out,
std::map<std::string, CycleStatus>& envCycles)
: EnvCycles(envCycles)
, Out(out)
, MacroExpanders(macroExpanders)
{
}
ExpandMacroResult operator()(const std::string& macroNamespace,
const std::string& macroName,
std::string& macroOut,
int version) const override
{
if (macroNamespace == "env" && !macroName.empty() && Out) {
auto v = Out->Environment.find(macroName);
if (v != Out->Environment.end() && v->second) {
auto e =
VisitEnv(*v->second, EnvCycles[macroName], MacroExpanders, version);
if (e != ExpandMacroResult::Ok) {
return e;
}
macroOut += *v->second;
return ExpandMacroResult::Ok;
}
}
if (macroNamespace == "env" || macroNamespace == "penv") {
if (macroName.empty()) {
return ExpandMacroResult::Error;
}
if (cm::optional<std::string> value =
cmSystemTools::GetEnvVar(macroName)) {
macroOut += *value;
}
return ExpandMacroResult::Ok;
}
return ExpandMacroResult::Ignore;
}
};
bool ExpandMacros(const cmCMakePresetsGraph& graph,
const ConfigurePreset& preset,
cm::optional<ConfigurePreset>& out,
MacroExpanderVector const& macroExpanders)
{
std::string binaryDir = preset.BinaryDir;
CHECK_EXPAND(out, binaryDir, macroExpanders, graph.GetVersion(preset));
if (!binaryDir.empty()) {
if (!cmSystemTools::FileIsFullPath(binaryDir)) {
binaryDir = cmStrCat(graph.SourceDir, '/', binaryDir);
}
out->BinaryDir = cmSystemTools::CollapseFullPath(binaryDir);
cmSystemTools::ConvertToUnixSlashes(out->BinaryDir);
}
if (!preset.InstallDir.empty()) {
std::string installDir = preset.InstallDir;
CHECK_EXPAND(out, installDir, macroExpanders, graph.GetVersion(preset));
if (!cmSystemTools::FileIsFullPath(installDir)) {
installDir = cmStrCat(graph.SourceDir, '/', installDir);
}
out->InstallDir = cmSystemTools::CollapseFullPath(installDir);
cmSystemTools::ConvertToUnixSlashes(out->InstallDir);
}
if (!preset.ToolchainFile.empty()) {
std::string toolchain = preset.ToolchainFile;
CHECK_EXPAND(out, toolchain, macroExpanders, graph.GetVersion(preset));
out->ToolchainFile = toolchain;
}
for (auto& variable : out->CacheVariables) {
if (variable.second) {
CHECK_EXPAND(out, variable.second->Value, macroExpanders,
graph.GetVersion(preset));
}
}
return true;
}
bool ExpandMacros(const cmCMakePresetsGraph& graph, const BuildPreset& preset,
cm::optional<BuildPreset>& out,
MacroExpanderVector const& macroExpanders)
{
for (auto& target : out->Targets) {
CHECK_EXPAND(out, target, macroExpanders, graph.GetVersion(preset));
}
for (auto& nativeToolOption : out->NativeToolOptions) {
CHECK_EXPAND(out, nativeToolOption, macroExpanders,
graph.GetVersion(preset));
}
return true;
}
bool ExpandMacros(const cmCMakePresetsGraph& graph, const TestPreset& preset,
cm::optional<TestPreset>& out,
MacroExpanderVector const& macroExpanders)
{
for (auto& overwrite : out->OverwriteConfigurationFile) {
CHECK_EXPAND(out, overwrite, macroExpanders, graph.GetVersion(preset));
}
if (out->Output) {
CHECK_EXPAND(out, out->Output->OutputLogFile, macroExpanders,
graph.GetVersion(preset));
CHECK_EXPAND(out, out->Output->OutputJUnitFile, macroExpanders,
graph.GetVersion(preset));
}
if (out->Filter) {
if (out->Filter->Include) {
CHECK_EXPAND(out, out->Filter->Include->Name, macroExpanders,
graph.GetVersion(preset));
CHECK_EXPAND(out, out->Filter->Include->Label, macroExpanders,
graph.GetVersion(preset));
if (out->Filter->Include->Index) {
CHECK_EXPAND(out, out->Filter->Include->Index->IndexFile,
macroExpanders, graph.GetVersion(preset));
}
}
if (out->Filter->Exclude) {
CHECK_EXPAND(out, out->Filter->Exclude->Name, macroExpanders,
graph.GetVersion(preset));
CHECK_EXPAND(out, out->Filter->Exclude->Label, macroExpanders,
graph.GetVersion(preset));
if (out->Filter->Exclude->Fixtures) {
CHECK_EXPAND(out, out->Filter->Exclude->Fixtures->Any, macroExpanders,
graph.GetVersion(preset));
CHECK_EXPAND(out, out->Filter->Exclude->Fixtures->Setup,
macroExpanders, graph.GetVersion(preset));
CHECK_EXPAND(out, out->Filter->Exclude->Fixtures->Cleanup,
macroExpanders, graph.GetVersion(preset));
}
}
}
if (out->Execution) {
CHECK_EXPAND(out, out->Execution->ResourceSpecFile, macroExpanders,
graph.GetVersion(preset));
}
return true;
}
bool ExpandMacros(const cmCMakePresetsGraph& graph,
const PackagePreset& preset,
cm::optional<PackagePreset>& out,
MacroExpanderVector const& macroExpanders)
{
for (auto& variable : out->Variables) {
CHECK_EXPAND(out, variable.second, macroExpanders,
graph.GetVersion(preset));
}
CHECK_EXPAND(out, out->ConfigFile, macroExpanders, graph.GetVersion(preset));
CHECK_EXPAND(out, out->PackageName, macroExpanders,
graph.GetVersion(preset));
CHECK_EXPAND(out, out->PackageVersion, macroExpanders,
graph.GetVersion(preset));
CHECK_EXPAND(out, out->PackageDirectory, macroExpanders,
graph.GetVersion(preset));
CHECK_EXPAND(out, out->VendorName, macroExpanders, graph.GetVersion(preset));
return true;
}
bool ExpandMacros(const cmCMakePresetsGraph& /*graph*/,
const WorkflowPreset& /*preset*/,
cm::optional<WorkflowPreset>& /*out*/,
MacroExpanderVector const& /*macroExpanders*/)
{
return true;
}
template <class T>
bool ExpandMacros(cmCMakePresetsGraph& graph, const T& preset,
cm::optional<T>& out)
{
out.emplace(preset);
std::map<std::string, CycleStatus> envCycles;
for (auto const& v : out->Environment) {
envCycles[v.first] = CycleStatus::Unvisited;
}
MacroExpanderVector macroExpanders{};
macroExpanders.push_back(cm::make_unique<BaseMacroExpander>(graph));
macroExpanders.push_back(
cm::make_unique<PresetMacroExpander<T>>(graph, preset));
macroExpanders.push_back(cm::make_unique<EnvironmentMacroExpander<T>>(
macroExpanders, out, envCycles));
for (auto& v : out->Environment) {
if (v.second) {
switch (VisitEnv(*v.second, envCycles[v.first], macroExpanders,
graph.GetVersion(preset))) {
case ExpandMacroResult::Error:
cmCMakePresetsErrors::INVALID_PRESET_NAMED(preset.Name,
&graph.parseState);
return false;
case ExpandMacroResult::Ignore:
out.reset();
return true;
case ExpandMacroResult::Ok:
break;
}
}
}
if (preset.ConditionEvaluator) {
cm::optional<bool> result;
if (!preset.ConditionEvaluator->Evaluate(
macroExpanders, graph.GetVersion(preset), result)) {
cmCMakePresetsErrors::INVALID_PRESET_NAMED(preset.Name,
&graph.parseState);
return false;
}
if (!result) {
out.reset();
return true;
}
out->ConditionResult = *result;
}
return ExpandMacros(graph, preset, out, macroExpanders);
}
ExpandMacroResult VisitEnv(std::string& value, CycleStatus& status,
MacroExpanderVector const& macroExpanders,
int version)
{
if (status == CycleStatus::Verified) {
return ExpandMacroResult::Ok;
}
if (status == CycleStatus::InProgress) {
return ExpandMacroResult::Error;
}
status = CycleStatus::InProgress;
auto e = ExpandMacros(value, macroExpanders, version);
if (e != ExpandMacroResult::Ok) {
return e;
}
status = CycleStatus::Verified;
return ExpandMacroResult::Ok;
}
}
ExpandMacroResult cmCMakePresetsGraphInternal::ExpandMacros(
std::string& out, MacroExpanderVector const& macroExpanders, int version)
{
std::string result;
std::string macroNamespace;
std::string macroName;
enum class State
{
Default,
MacroNamespace,
MacroName,
} state = State::Default;
for (auto c : out) {
switch (state) {
case State::Default:
if (c == '$') {
state = State::MacroNamespace;
} else {
result += c;
}
break;
case State::MacroNamespace:
if (c == '{') {
if (IsValidMacroNamespace(macroNamespace)) {
state = State::MacroName;
} else {
result += '$';
result += macroNamespace;
result += '{';
macroNamespace.clear();
state = State::Default;
}
} else {
macroNamespace += c;
if (!PrefixesValidMacroNamespace(macroNamespace)) {
result += '$';
result += macroNamespace;
macroNamespace.clear();
state = State::Default;
}
}
break;
case State::MacroName:
if (c == '}') {
auto e = ExpandMacro(result, macroNamespace, macroName,
macroExpanders, version);
if (e != ExpandMacroResult::Ok) {
return e;
}
macroNamespace.clear();
macroName.clear();
state = State::Default;
} else {
macroName += c;
}
break;
}
}
switch (state) {
case State::Default:
break;
case State::MacroNamespace:
result += '$';
result += macroNamespace;
break;
case State::MacroName:
return ExpandMacroResult::Error;
}
out = std::move(result);
return ExpandMacroResult::Ok;
}
ExpandMacroResult cmCMakePresetsGraphInternal::ExpandMacro(
std::string& out, const std::string& macroNamespace,
const std::string& macroName, MacroExpanderVector const& macroExpanders,
int version)
{
for (auto const& macroExpander : macroExpanders) {
auto result = (*macroExpander)(macroNamespace, macroName, out, version);
if (result != ExpandMacroResult::Ignore) {
return result;
}
}
if (macroNamespace == "vendor") {
return ExpandMacroResult::Ignore;
}
return ExpandMacroResult::Error;
}
namespace {
template <typename T>
bool SetupWorkflowConfigurePreset(const T& preset,
const ConfigurePreset*& configurePreset,
cmJSONState* state)
{
if (preset.ConfigurePreset != configurePreset->Name) {
cmCMakePresetsErrors::INVALID_WORKFLOW_STEPS(configurePreset->Name, state);
return false;
}
return true;
}
template <>
bool SetupWorkflowConfigurePreset<ConfigurePreset>(
const ConfigurePreset& preset, const ConfigurePreset*& configurePreset,
cmJSONState*)
{
configurePreset = &preset;
return true;
}
template <typename T>
bool TryReachPresetFromWorkflow(
const WorkflowPreset& origin,
const std::map<std::string, PresetPair<T>>& presets, const std::string& name,
const ConfigurePreset*& configurePreset, cmJSONState* state)
{
auto it = presets.find(name);
if (it == presets.end()) {
cmCMakePresetsErrors::INVALID_WORKFLOW_STEPS(name, state);
return false;
}
if (!origin.OriginFile->ReachableFiles.count(
it->second.Unexpanded.OriginFile)) {
cmCMakePresetsErrors::WORKFLOW_STEP_UNREACHABLE_FROM_FILE(name, state);
return false;
}
return SetupWorkflowConfigurePreset<T>(it->second.Unexpanded,
configurePreset, state);
}
}
ExpandMacroResult BaseMacroExpander::operator()(
const std::string& macroNamespace, const std::string& macroName,
std::string& macroOut, int version) const
{
if (macroNamespace.empty()) {
if (macroName == "sourceDir") {
macroOut += Graph.SourceDir;
return ExpandMacroResult::Ok;
}
if (macroName == "sourceParentDir") {
macroOut += cmSystemTools::GetParentDirectory(Graph.SourceDir);
return ExpandMacroResult::Ok;
}
if (macroName == "sourceDirName") {
macroOut += cmSystemTools::GetFilenameName(Graph.SourceDir);
return ExpandMacroResult::Ok;
}
if (macroName == "dollar") {
macroOut += '$';
return ExpandMacroResult::Ok;
}
if (macroName == "hostSystemName") {
if (version < 3) {
return ExpandMacroResult::Error;
}
macroOut += cmSystemTools::GetSystemName();
return ExpandMacroResult::Ok;
}
// Enable fileDir macro expansion for non-preset expanders
if (macroName == "fileDir" && File) {
if (version < 4) {
return ExpandMacroResult::Error;
}
macroOut += cmSystemTools::GetParentDirectory(File.value());
return ExpandMacroResult::Ok;
}
if (macroName == "pathListSep") {
if (version < 5) {
return ExpandMacroResult::Error;
}
macroOut += cmSystemTools::GetSystemPathlistSeparator();
return ExpandMacroResult::Ok;
}
}
return ExpandMacroResult::Ignore;
}
bool cmCMakePresetsGraphInternal::EqualsCondition::Evaluate(
MacroExpanderVector const& expanders, int version,
cm::optional<bool>& out) const
{
std::string lhs = this->Lhs;
CHECK_EXPAND(out, lhs, expanders, version);
std::string rhs = this->Rhs;
CHECK_EXPAND(out, rhs, expanders, version);
out = (lhs == rhs);
return true;
}
bool cmCMakePresetsGraphInternal::InListCondition::Evaluate(
MacroExpanderVector const& expanders, int version,
cm::optional<bool>& out) const
{
std::string str = this->String;
CHECK_EXPAND(out, str, expanders, version);
for (auto item : this->List) {
CHECK_EXPAND(out, item, expanders, version);
if (str == item) {
out = true;
return true;
}
}
out = false;
return true;
}
bool cmCMakePresetsGraphInternal::MatchesCondition::Evaluate(
MacroExpanderVector const& expanders, int version,
cm::optional<bool>& out) const
{
std::string str = this->String;
CHECK_EXPAND(out, str, expanders, version);
std::string regexStr = this->Regex;
CHECK_EXPAND(out, regexStr, expanders, version);
cmsys::RegularExpression regex;
if (!regex.compile(regexStr)) {
return false;
}
out = regex.find(str);
return true;
}
bool cmCMakePresetsGraphInternal::AnyAllOfCondition::Evaluate(
MacroExpanderVector const& expanders, int version,
cm::optional<bool>& out) const
{
for (auto const& condition : this->Conditions) {
cm::optional<bool> result;
if (!condition->Evaluate(expanders, version, result)) {
out.reset();
return false;
}
if (!result) {
out.reset();
return true;
}
if (result == this->StopValue) {
out = result;
return true;
}
}
out = !this->StopValue;
return true;
}
bool cmCMakePresetsGraphInternal::NotCondition::Evaluate(
MacroExpanderVector const& expanders, int version,
cm::optional<bool>& out) const
{
out.reset();
if (!this->SubCondition->Evaluate(expanders, version, out)) {
out.reset();
return false;
}
if (out) {
*out = !*out;
}
return true;
}
bool cmCMakePresetsGraph::ConfigurePreset::VisitPresetInherit(
const cmCMakePresetsGraph::Preset& parentPreset)
{
auto& preset = *this;
const ConfigurePreset& parent =
static_cast<const ConfigurePreset&>(parentPreset);
InheritString(preset.Generator, parent.Generator);
InheritString(preset.Architecture, parent.Architecture);
InheritString(preset.Toolset, parent.Toolset);
if (!preset.ArchitectureStrategy) {
preset.ArchitectureStrategy = parent.ArchitectureStrategy;
}
if (!preset.ToolsetStrategy) {
preset.ToolsetStrategy = parent.ToolsetStrategy;
}
InheritString(preset.BinaryDir, parent.BinaryDir);
InheritString(preset.InstallDir, parent.InstallDir);
InheritString(preset.ToolchainFile, parent.ToolchainFile);
InheritOptionalValue(preset.WarnDev, parent.WarnDev);
InheritOptionalValue(preset.ErrorDev, parent.ErrorDev);
InheritOptionalValue(preset.WarnDeprecated, parent.WarnDeprecated);
InheritOptionalValue(preset.ErrorDeprecated, parent.ErrorDeprecated);
InheritOptionalValue(preset.WarnUninitialized, parent.WarnUninitialized);
InheritOptionalValue(preset.WarnUnusedCli, parent.WarnUnusedCli);
InheritOptionalValue(preset.WarnSystemVars, parent.WarnSystemVars);
for (auto const& v : parent.CacheVariables) {
preset.CacheVariables.insert(v);
}
return true;
}
bool cmCMakePresetsGraph::ConfigurePreset::VisitPresetBeforeInherit()
{
auto& preset = *this;
if (preset.Environment.count("") != 0) {
return false;
}
return true;
}
bool cmCMakePresetsGraph::ConfigurePreset::VisitPresetAfterInherit(
int version, cmJSONState* state)
{
auto& preset = *this;
if (!preset.Hidden) {
if (version < 3) {
if (preset.Generator.empty()) {
cmCMakePresetsErrors::PRESET_MISSING_FIELD(preset.Name, "generator",
state);
return false;
}
if (preset.BinaryDir.empty()) {
cmCMakePresetsErrors::PRESET_MISSING_FIELD(preset.Name, "binaryDir",
state);
return false;
}
}
if (preset.WarnDev == false && preset.ErrorDev == true) {
return false;
}
if (preset.WarnDeprecated == false && preset.ErrorDeprecated == true) {
return false;
}
if (preset.CacheVariables.count("") != 0) {
return false;
}
}
return true;
}
bool cmCMakePresetsGraph::BuildPreset::VisitPresetInherit(
const cmCMakePresetsGraph::Preset& parentPreset)
{
auto& preset = *this;
const BuildPreset& parent = static_cast<const BuildPreset&>(parentPreset);
InheritString(preset.ConfigurePreset, parent.ConfigurePreset);
InheritOptionalValue(preset.InheritConfigureEnvironment,
parent.InheritConfigureEnvironment);
InheritOptionalValue(preset.Jobs, parent.Jobs);
InheritVector(preset.Targets, parent.Targets);
InheritString(preset.Configuration, parent.Configuration);
InheritOptionalValue(preset.CleanFirst, parent.CleanFirst);
InheritOptionalValue(preset.Verbose, parent.Verbose);
InheritVector(preset.NativeToolOptions, parent.NativeToolOptions);
if (!preset.ResolvePackageReferences) {
preset.ResolvePackageReferences = parent.ResolvePackageReferences;
}
return true;
}
bool cmCMakePresetsGraph::BuildPreset::VisitPresetAfterInherit(
int /* version */, cmJSONState* /*stat*/)
{
auto& preset = *this;
if (!preset.Hidden && preset.ConfigurePreset.empty()) {
return false;
}
return true;
}
bool cmCMakePresetsGraph::TestPreset::VisitPresetInherit(
const cmCMakePresetsGraph::Preset& parentPreset)
{
auto& preset = *this;
const TestPreset& parent = static_cast<const TestPreset&>(parentPreset);
InheritString(preset.ConfigurePreset, parent.ConfigurePreset);
InheritOptionalValue(preset.InheritConfigureEnvironment,
parent.InheritConfigureEnvironment);
InheritString(preset.Configuration, parent.Configuration);
InheritVector(preset.OverwriteConfigurationFile,
parent.OverwriteConfigurationFile);
if (parent.Output) {
if (preset.Output) {
auto& output = preset.Output.value();
const auto& parentOutput = parent.Output.value();
InheritOptionalValue(output.ShortProgress, parentOutput.ShortProgress);
InheritOptionalValue(output.Verbosity, parentOutput.Verbosity);
InheritOptionalValue(output.Debug, parentOutput.Debug);
InheritOptionalValue(output.OutputOnFailure,
parentOutput.OutputOnFailure);
InheritOptionalValue(output.Quiet, parentOutput.Quiet);
InheritString(output.OutputLogFile, parentOutput.OutputLogFile);
InheritString(output.OutputJUnitFile, parentOutput.OutputJUnitFile);
InheritOptionalValue(output.LabelSummary, parentOutput.LabelSummary);
InheritOptionalValue(output.SubprojectSummary,
parentOutput.SubprojectSummary);
InheritOptionalValue(output.MaxPassedTestOutputSize,
parentOutput.MaxPassedTestOutputSize);
InheritOptionalValue(output.MaxFailedTestOutputSize,
parentOutput.MaxFailedTestOutputSize);
InheritOptionalValue(output.TestOutputTruncation,
parentOutput.TestOutputTruncation);
InheritOptionalValue(output.MaxTestNameWidth,
parentOutput.MaxTestNameWidth);
} else {
preset.Output = parent.Output;
}
}
if (parent.Filter) {
if (parent.Filter->Include) {
if (preset.Filter && preset.Filter->Include) {
auto& include = *preset.Filter->Include;
const auto& parentInclude = *parent.Filter->Include;
InheritString(include.Name, parentInclude.Name);
InheritString(include.Label, parentInclude.Label);
InheritOptionalValue(include.Index, parentInclude.Index);
} else {
if (!preset.Filter) {
preset.Filter.emplace();
}
preset.Filter->Include = parent.Filter->Include;
}
}
if (parent.Filter->Exclude) {
if (preset.Filter && preset.Filter->Exclude) {
auto& exclude = *preset.Filter->Exclude;
const auto& parentExclude = *parent.Filter->Exclude;
InheritString(exclude.Name, parentExclude.Name);
InheritString(exclude.Label, parentExclude.Label);
InheritOptionalValue(exclude.Fixtures, parentExclude.Fixtures);
} else {
if (!preset.Filter) {
preset.Filter.emplace();
}
preset.Filter->Exclude = parent.Filter->Exclude;
}
}
}
if (parent.Execution) {
if (preset.Execution) {
auto& execution = *preset.Execution;
const auto& parentExecution = *parent.Execution;
InheritOptionalValue(execution.StopOnFailure,
parentExecution.StopOnFailure);
InheritOptionalValue(execution.EnableFailover,
parentExecution.EnableFailover);
InheritOptionalValue(execution.Jobs, parentExecution.Jobs);
InheritString(execution.ResourceSpecFile,
parentExecution.ResourceSpecFile);
InheritOptionalValue(execution.TestLoad, parentExecution.TestLoad);
InheritOptionalValue(execution.ShowOnly, parentExecution.ShowOnly);
InheritOptionalValue(execution.Repeat, parentExecution.Repeat);
InheritOptionalValue(execution.InteractiveDebugging,
parentExecution.InteractiveDebugging);
InheritOptionalValue(execution.ScheduleRandom,
parentExecution.ScheduleRandom);
InheritOptionalValue(execution.Timeout, parentExecution.Timeout);
InheritOptionalValue(execution.NoTestsAction,
parentExecution.NoTestsAction);
} else {
preset.Execution = parent.Execution;
}
}
return true;
}
bool cmCMakePresetsGraph::TestPreset::VisitPresetAfterInherit(
int /* version */, cmJSONState* /*state*/)
{
auto& preset = *this;
if (!preset.Hidden && preset.ConfigurePreset.empty()) {
return false;
}
return true;
}
bool cmCMakePresetsGraph::PackagePreset::VisitPresetInherit(
const cmCMakePresetsGraph::Preset& parentPreset)
{
auto& preset = *this;
const PackagePreset& parent =
static_cast<const PackagePreset&>(parentPreset);
InheritString(preset.ConfigurePreset, parent.ConfigurePreset);
InheritOptionalValue(preset.InheritConfigureEnvironment,
parent.InheritConfigureEnvironment);
InheritVector(preset.Generators, parent.Generators);
InheritVector(preset.Configurations, parent.Configurations);
for (auto const& v : parent.Variables) {
preset.Variables.insert(v);
}
InheritOptionalValue(preset.DebugOutput, parent.DebugOutput);
InheritOptionalValue(preset.VerboseOutput, parent.VerboseOutput);
InheritString(preset.PackageName, parent.PackageName);
InheritString(preset.PackageVersion, parent.PackageVersion);
InheritString(preset.PackageDirectory, parent.PackageDirectory);
InheritString(preset.VendorName, parent.VendorName);
return true;
}
bool cmCMakePresetsGraph::PackagePreset::VisitPresetAfterInherit(
int /* version */, cmJSONState* /*state*/)
{
auto& preset = *this;
if (!preset.Hidden && preset.ConfigurePreset.empty()) {
return false;
}
return true;
}
bool cmCMakePresetsGraph::WorkflowPreset::VisitPresetInherit(
const cmCMakePresetsGraph::Preset& /*parentPreset*/)
{
return true;
}
bool cmCMakePresetsGraph::WorkflowPreset::VisitPresetAfterInherit(
int /* version */, cmJSONState* /*state*/)
{
return true;
}
std::string cmCMakePresetsGraph::GetFilename(const std::string& sourceDir)
{
return cmStrCat(sourceDir, "/CMakePresets.json");
}
std::string cmCMakePresetsGraph::GetUserFilename(const std::string& sourceDir)
{
return cmStrCat(sourceDir, "/CMakeUserPresets.json");
}
bool cmCMakePresetsGraph::ReadProjectPresets(const std::string& sourceDir,
bool allowNoFiles)
{
this->SourceDir = sourceDir;
this->ClearPresets();
if (!this->ReadProjectPresetsInternal(allowNoFiles)) {
this->ClearPresets();
return false;
}
return true;
}
bool cmCMakePresetsGraph::ReadProjectPresetsInternal(bool allowNoFiles)
{
bool haveOneFile = false;
File* file;
std::string filename = GetUserFilename(this->SourceDir);
std::vector<File*> inProgressFiles;
if (cmSystemTools::FileExists(filename)) {
if (!this->ReadJSONFile(filename, RootType::User, ReadReason::Root,
inProgressFiles, file, this->errors)) {
return false;
}
haveOneFile = true;
} else {
filename = GetFilename(this->SourceDir);
if (cmSystemTools::FileExists(filename)) {
if (!this->ReadJSONFile(filename, RootType::Project, ReadReason::Root,
inProgressFiles, file, this->errors)) {
return false;
}
haveOneFile = true;
}
}
assert(inProgressFiles.empty());
if (!haveOneFile) {
if (allowNoFiles) {
return true;
}
cmCMakePresetsErrors::FILE_NOT_FOUND(filename, &this->parseState);
return false;
}
bool result = ComputePresetInheritance(this->ConfigurePresets, *this) &&
ComputePresetInheritance(this->ConfigurePresets, *this) &&
ComputePresetInheritance(this->BuildPresets, *this) &&
ComputePresetInheritance(this->TestPresets, *this) &&
ComputePresetInheritance(this->PackagePresets, *this) &&
ComputePresetInheritance(this->WorkflowPresets, *this);
if (!result) {
return false;
}
for (auto& it : this->ConfigurePresets) {
if (!ExpandMacros(*this, it.second.Unexpanded, it.second.Expanded)) {
cmCMakePresetsErrors::INVALID_MACRO_EXPANSION(it.first,
&this->parseState);
return false;
}
}
for (auto& it : this->BuildPresets) {
if (!it.second.Unexpanded.Hidden) {
const auto configurePreset =
this->ConfigurePresets.find(it.second.Unexpanded.ConfigurePreset);
if (configurePreset == this->ConfigurePresets.end()) {
cmCMakePresetsErrors::INVALID_CONFIGURE_PRESET(it.first,
&this->parseState);
return false;
}
if (!it.second.Unexpanded.OriginFile->ReachableFiles.count(
configurePreset->second.Unexpanded.OriginFile)) {
cmCMakePresetsErrors::CONFIGURE_PRESET_UNREACHABLE_FROM_FILE(
it.first, &this->parseState);
return false;
}
if (it.second.Unexpanded.InheritConfigureEnvironment.value_or(true)) {
it.second.Unexpanded.Environment.insert(
configurePreset->second.Unexpanded.Environment.begin(),
configurePreset->second.Unexpanded.Environment.end());
}
}
if (!ExpandMacros(*this, it.second.Unexpanded, it.second.Expanded)) {
cmCMakePresetsErrors::INVALID_MACRO_EXPANSION(it.first,
&this->parseState);
return false;
}
}
for (auto& it : this->TestPresets) {
if (!it.second.Unexpanded.Hidden) {
const auto configurePreset =
this->ConfigurePresets.find(it.second.Unexpanded.ConfigurePreset);
if (configurePreset == this->ConfigurePresets.end()) {
cmCMakePresetsErrors::INVALID_CONFIGURE_PRESET(it.first,
&this->parseState);
return false;
}
if (!it.second.Unexpanded.OriginFile->ReachableFiles.count(
configurePreset->second.Unexpanded.OriginFile)) {
cmCMakePresetsErrors::CONFIGURE_PRESET_UNREACHABLE_FROM_FILE(
it.first, &this->parseState);
return false;
}
if (it.second.Unexpanded.InheritConfigureEnvironment.value_or(true)) {
it.second.Unexpanded.Environment.insert(
configurePreset->second.Unexpanded.Environment.begin(),
configurePreset->second.Unexpanded.Environment.end());
}
}
if (!ExpandMacros(*this, it.second.Unexpanded, it.second.Expanded)) {
cmCMakePresetsErrors::INVALID_MACRO_EXPANSION(it.first,
&this->parseState);
return false;
}
}
for (auto& it : this->PackagePresets) {
if (!it.second.Unexpanded.Hidden) {
const auto configurePreset =
this->ConfigurePresets.find(it.second.Unexpanded.ConfigurePreset);
if (configurePreset == this->ConfigurePresets.end()) {
cmCMakePresetsErrors::INVALID_CONFIGURE_PRESET(it.first,
&this->parseState);
return false;
}
if (!it.second.Unexpanded.OriginFile->ReachableFiles.count(
configurePreset->second.Unexpanded.OriginFile)) {
cmCMakePresetsErrors::CONFIGURE_PRESET_UNREACHABLE_FROM_FILE(
it.first, &this->parseState);
return false;
}
if (it.second.Unexpanded.InheritConfigureEnvironment.value_or(true)) {
it.second.Unexpanded.Environment.insert(
configurePreset->second.Unexpanded.Environment.begin(),
configurePreset->second.Unexpanded.Environment.end());
}
}
if (!ExpandMacros(*this, it.second.Unexpanded, it.second.Expanded)) {
cmCMakePresetsErrors::INVALID_MACRO_EXPANSION(it.first,
&this->parseState);
return false;
}
}
for (auto& it : this->WorkflowPresets) {
using Type = WorkflowPreset::WorkflowStep::Type;
const ConfigurePreset* configurePreset = nullptr;
for (auto const& step : it.second.Unexpanded.Steps) {
if (configurePreset == nullptr && step.PresetType != Type::Configure) {
cmCMakePresetsErrors::FIRST_WORKFLOW_STEP_NOT_CONFIGURE(
step.PresetName, &this->parseState);
return false;
}
if (configurePreset != nullptr && step.PresetType == Type::Configure) {
cmCMakePresetsErrors::CONFIGURE_WORKFLOW_STEP_NOT_FIRST(
step.PresetName, &this->parseState);
return false;
}
switch (step.PresetType) {
case Type::Configure:
result = TryReachPresetFromWorkflow(
it.second.Unexpanded, this->ConfigurePresets, step.PresetName,
configurePreset, &this->parseState);
break;
case Type::Build:
result = TryReachPresetFromWorkflow(
it.second.Unexpanded, this->BuildPresets, step.PresetName,
configurePreset, &this->parseState);
break;
case Type::Test:
result = TryReachPresetFromWorkflow(
it.second.Unexpanded, this->TestPresets, step.PresetName,
configurePreset, &this->parseState);
break;
case Type::Package:
result = TryReachPresetFromWorkflow(
it.second.Unexpanded, this->PackagePresets, step.PresetName,
configurePreset, &this->parseState);
break;
}
if (!result) {
return false;
}
}
if (configurePreset == nullptr) {
cmCMakePresetsErrors::NO_WORKFLOW_STEPS(it.first, &this->parseState);
return false;
}
if (!ExpandMacros(*this, it.second.Unexpanded, it.second.Expanded)) {
cmCMakePresetsErrors::INVALID_MACRO_EXPANSION(it.first,
&this->parseState);
return false;
}
}
return true;
}
void cmCMakePresetsGraph::ClearPresets()
{
this->ConfigurePresets.clear();
this->BuildPresets.clear();
this->TestPresets.clear();
this->PackagePresets.clear();
this->WorkflowPresets.clear();
this->ConfigurePresetOrder.clear();
this->BuildPresetOrder.clear();
this->TestPresetOrder.clear();
this->PackagePresetOrder.clear();
this->WorkflowPresetOrder.clear();
this->Files.clear();
}
void cmCMakePresetsGraph::printPrecedingNewline(PrintPrecedingNewline* newline)
{
if (newline) {
if (*newline == PrintPrecedingNewline::True) {
std::cout << std::endl;
}
*newline = PrintPrecedingNewline::True;
}
}
void cmCMakePresetsGraph::PrintPresets(
const std::vector<const cmCMakePresetsGraph::Preset*>& presets)
{
if (presets.empty()) {
return;
}
auto longestPresetName =
std::max_element(presets.begin(), presets.end(),
[](const cmCMakePresetsGraph::Preset* a,
const cmCMakePresetsGraph::Preset* b) {
return a->Name.length() < b->Name.length();
});
auto longestLength = (*longestPresetName)->Name.length();
for (const auto* preset : presets) {
std::cout << " \"" << preset->Name << '"';
const auto& description = preset->DisplayName;
if (!description.empty()) {
for (std::size_t i = 0; i < longestLength - preset->Name.length(); ++i) {
std::cout << ' ';
}
std::cout << " - " << description;
}
std::cout << '\n';
}
}
void cmCMakePresetsGraph::PrintConfigurePresetList(
PrintPrecedingNewline* newline) const
{
PrintConfigurePresetList([](const ConfigurePreset&) { return true; },
newline);
}
void cmCMakePresetsGraph::PrintConfigurePresetList(
const std::function<bool(const ConfigurePreset&)>& filter,
PrintPrecedingNewline* newline) const
{
std::vector<const cmCMakePresetsGraph::Preset*> presets;
for (auto const& p : this->ConfigurePresetOrder) {
auto const& preset = this->ConfigurePresets.at(p);
if (!preset.Unexpanded.Hidden && preset.Expanded &&
preset.Expanded->ConditionResult && filter(preset.Unexpanded)) {
presets.push_back(
static_cast<const cmCMakePresetsGraph::Preset*>(&preset.Unexpanded));
}
}
if (!presets.empty()) {
printPrecedingNewline(newline);
std::cout << "Available configure presets:\n\n";
cmCMakePresetsGraph::PrintPresets(presets);
}
}
void cmCMakePresetsGraph::PrintBuildPresetList(
PrintPrecedingNewline* newline) const
{
std::vector<const cmCMakePresetsGraph::Preset*> presets;
for (auto const& p : this->BuildPresetOrder) {
auto const& preset = this->BuildPresets.at(p);
if (!preset.Unexpanded.Hidden && preset.Expanded &&
preset.Expanded->ConditionResult) {
presets.push_back(
static_cast<const cmCMakePresetsGraph::Preset*>(&preset.Unexpanded));
}
}
if (!presets.empty()) {
printPrecedingNewline(newline);
std::cout << "Available build presets:\n\n";
cmCMakePresetsGraph::PrintPresets(presets);
}
}
void cmCMakePresetsGraph::PrintTestPresetList(
PrintPrecedingNewline* newline) const
{
std::vector<const cmCMakePresetsGraph::Preset*> presets;
for (auto const& p : this->TestPresetOrder) {
auto const& preset = this->TestPresets.at(p);
if (!preset.Unexpanded.Hidden && preset.Expanded &&
preset.Expanded->ConditionResult) {
presets.push_back(
static_cast<const cmCMakePresetsGraph::Preset*>(&preset.Unexpanded));
}
}
if (!presets.empty()) {
printPrecedingNewline(newline);
std::cout << "Available test presets:\n\n";
cmCMakePresetsGraph::PrintPresets(presets);
}
}
void cmCMakePresetsGraph::PrintPackagePresetList(
PrintPrecedingNewline* newline) const
{
this->PrintPackagePresetList([](const PackagePreset&) { return true; },
newline);
}
void cmCMakePresetsGraph::PrintPackagePresetList(
const std::function<bool(const PackagePreset&)>& filter,
PrintPrecedingNewline* newline) const
{
std::vector<const cmCMakePresetsGraph::Preset*> presets;
for (auto const& p : this->PackagePresetOrder) {
auto const& preset = this->PackagePresets.at(p);
if (!preset.Unexpanded.Hidden && preset.Expanded &&
preset.Expanded->ConditionResult && filter(preset.Unexpanded)) {
presets.push_back(
static_cast<const cmCMakePresetsGraph::Preset*>(&preset.Unexpanded));
}
}
if (!presets.empty()) {
printPrecedingNewline(newline);
std::cout << "Available package presets:\n\n";
cmCMakePresetsGraph::PrintPresets(presets);
}
}
void cmCMakePresetsGraph::PrintWorkflowPresetList(
PrintPrecedingNewline* newline) const
{
std::vector<const cmCMakePresetsGraph::Preset*> presets;
for (auto const& p : this->WorkflowPresetOrder) {
auto const& preset = this->WorkflowPresets.at(p);
if (!preset.Unexpanded.Hidden && preset.Expanded &&
preset.Expanded->ConditionResult) {
presets.push_back(
static_cast<const cmCMakePresetsGraph::Preset*>(&preset.Unexpanded));
}
}
if (!presets.empty()) {
printPrecedingNewline(newline);
std::cout << "Available workflow presets:\n\n";
cmCMakePresetsGraph::PrintPresets(presets);
}
}
void cmCMakePresetsGraph::PrintAllPresets() const
{
PrintPrecedingNewline newline = PrintPrecedingNewline::False;
this->PrintConfigurePresetList(&newline);
this->PrintBuildPresetList(&newline);
this->PrintTestPresetList(&newline);
this->PrintPackagePresetList(&newline);
this->PrintWorkflowPresetList(&newline);
}