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o3de/Code/Tools/ProjectManager/Source/PythonBindings.cpp

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/*
* All or portions of this file Copyright (c) Amazon.com, Inc. or its affiliates or
* its licensors.
*
* For complete copyright and license terms please see the LICENSE at the root of this
* distribution (the "License"). All use of this software is governed by the License,
* or, if provided, by the license below or the license accompanying this file. Do not
* remove or modify any license notices. This file is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
*
*/
#include <PythonBindings.h>
// Qt defines slots, which interferes with the use here.
#pragma push_macro("slots")
#undef slots
#include <pybind11/functional.h>
#include <pybind11/embed.h>
#include <pybind11/eval.h>
#pragma pop_macro("slots")
#include <AzCore/IO/FileIO.h>
#include <AzCore/IO/SystemFile.h>
#include <AzCore/std/string/conversions.h>
#include <AzCore/StringFunc/StringFunc.h>
namespace Platform
{
bool InsertPythonLibraryPath(
AZStd::unordered_set<AZStd::string>& paths, const char* pythonPackage, const char* engineRoot, const char* subPath)
{
// append lib path to Python paths
AZ::IO::FixedMaxPath libPath = engineRoot;
libPath /= AZ::IO::FixedMaxPathString::format(subPath, pythonPackage);
libPath = libPath.LexicallyNormal();
if (AZ::IO::SystemFile::Exists(libPath.c_str()))
{
paths.insert(libPath.c_str());
return true;
}
AZ_Warning("python", false, "Python library path should exist. path:%s", libPath.c_str());
return false;
}
// Implemented in each different platform's PAL implentation files, as it differs per platform.
AZStd::string GetPythonHomePath(const char* pythonPackage, const char* engineRoot);
} // namespace Platform
#define Py_To_String(obj) obj.cast<std::string>().c_str()
#define Py_To_String_Optional(dict, key, default_string) dict.contains(key) ? Py_To_String(dict[key]) : default_string
namespace RedirectOutput
{
using RedirectOutputFunc = AZStd::function<void(const char*)>;
struct RedirectOutput
{
PyObject_HEAD RedirectOutputFunc write;
};
PyObject* RedirectWrite(PyObject* self, PyObject* args)
{
std::size_t written(0);
RedirectOutput* selfimpl = reinterpret_cast<RedirectOutput*>(self);
if (selfimpl->write)
{
char* data;
if (!PyArg_ParseTuple(args, "s", &data))
{
return PyLong_FromSize_t(0);
}
selfimpl->write(data);
written = strlen(data);
}
return PyLong_FromSize_t(written);
}
PyObject* RedirectFlush([[maybe_unused]] PyObject* self,[[maybe_unused]] PyObject* args)
{
// no-op
return Py_BuildValue("");
}
PyMethodDef RedirectMethods[] = {
{"write", RedirectWrite, METH_VARARGS, "sys.stdout.write"},
{"flush", RedirectFlush, METH_VARARGS, "sys.stdout.flush"},
{"write", RedirectWrite, METH_VARARGS, "sys.stderr.write"},
{"flush", RedirectFlush, METH_VARARGS, "sys.stderr.flush"},
{0, 0, 0, 0} // sentinel
};
PyTypeObject RedirectOutputType = {
PyVarObject_HEAD_INIT(0, 0) "azlmbr_redirect.RedirectOutputType", // tp_name
sizeof(RedirectOutput), /* tp_basicsize */
0, /* tp_itemsize */
0, /* tp_dealloc */
0, /* tp_print */
0, /* tp_getattr */
0, /* tp_setattr */
0, /* tp_reserved */
0, /* tp_repr */
0, /* tp_as_number */
0, /* tp_as_sequence */
0, /* tp_as_mapping */
0, /* tp_hash */
0, /* tp_call */
0, /* tp_str */
0, /* tp_getattro */
0, /* tp_setattro */
0, /* tp_as_buffer */
Py_TPFLAGS_DEFAULT, /* tp_flags */
"azlmbr_redirect objects", /* tp_doc */
0, /* tp_traverse */
0, /* tp_clear */
0, /* tp_richcompare */
0, /* tp_weaklistoffset */
0, /* tp_iter */
0, /* tp_iternext */
RedirectMethods, /* tp_methods */
0, /* tp_members */
0, /* tp_getset */
0, /* tp_base */
0, /* tp_dict */
0, /* tp_descr_get */
0, /* tp_descr_set */
0, /* tp_dictoffset */
0, /* tp_init */
0, /* tp_alloc */
0 /* tp_new */
};
PyModuleDef RedirectOutputModule = {
PyModuleDef_HEAD_INIT, "azlmbr_redirect", 0, -1, 0,
};
// Internal state
PyObject* g_redirect_stdout = nullptr;
PyObject* g_redirect_stdout_saved = nullptr;
PyObject* g_redirect_stderr = nullptr;
PyObject* g_redirect_stderr_saved = nullptr;
PyMODINIT_FUNC PyInit_RedirectOutput(void)
{
g_redirect_stdout = nullptr;
g_redirect_stdout_saved = nullptr;
g_redirect_stderr = nullptr;
g_redirect_stderr_saved = nullptr;
RedirectOutputType.tp_new = PyType_GenericNew;
if (PyType_Ready(&RedirectOutputType) < 0)
{
return 0;
}
PyObject* redirectModule = PyModule_Create(&RedirectOutputModule);
if (redirectModule)
{
Py_INCREF(&RedirectOutputType);
PyModule_AddObject(redirectModule, "Redirect", reinterpret_cast<PyObject*>(&RedirectOutputType));
}
return redirectModule;
}
void SetRedirection(const char* funcname, PyObject*& saved, PyObject*& current, RedirectOutputFunc func)
{
if (PyType_Ready(&RedirectOutputType) < 0)
{
AZ_Warning("python", false, "RedirectOutputType not ready!");
return;
}
if (!current)
{
saved = PySys_GetObject(funcname); // borrowed
current = RedirectOutputType.tp_new(&RedirectOutputType, 0, 0);
}
RedirectOutput* redirectOutput = reinterpret_cast<RedirectOutput*>(current);
redirectOutput->write = func;
PySys_SetObject(funcname, current);
}
void ResetRedirection(const char* funcname, PyObject*& saved, PyObject*& current)
{
if (current)
{
PySys_SetObject(funcname, saved);
}
Py_XDECREF(current);
current = nullptr;
}
PyObject* s_RedirectModule = nullptr;
void Intialize(PyObject* module)
{
s_RedirectModule = module;
SetRedirection("stdout", g_redirect_stdout_saved, g_redirect_stdout, []([[maybe_unused]] const char* msg) {
AZ_TracePrintf("Python", msg);
});
SetRedirection("stderr", g_redirect_stderr_saved, g_redirect_stderr, []([[maybe_unused]] const char* msg) {
AZ_TracePrintf("Python", msg);
});
PySys_WriteStdout("RedirectOutput installed");
}
void Shutdown()
{
ResetRedirection("stdout", g_redirect_stdout_saved, g_redirect_stdout);
ResetRedirection("stderr", g_redirect_stderr_saved, g_redirect_stderr);
Py_XDECREF(s_RedirectModule);
s_RedirectModule = nullptr;
}
} // namespace RedirectOutput
namespace O3DE::ProjectManager
{
PythonBindings::PythonBindings(const AZ::IO::PathView& enginePath)
: m_enginePath(enginePath)
{
StartPython();
}
PythonBindings::~PythonBindings()
{
StopPython();
}
bool PythonBindings::StartPython()
{
if (Py_IsInitialized())
{
AZ_Warning("python", false, "Python is already active");
return false;
}
// set PYTHON_HOME
AZStd::string pyBasePath = Platform::GetPythonHomePath(PY_PACKAGE, m_enginePath.c_str());
if (!AZ::IO::SystemFile::Exists(pyBasePath.c_str()))
{
AZ_Warning("python", false, "Python home path must exist. path:%s", pyBasePath.c_str());
return false;
}
AZStd::wstring pyHomePath;
AZStd::to_wstring(pyHomePath, pyBasePath);
Py_SetPythonHome(pyHomePath.c_str());
// display basic Python information
AZ_TracePrintf("python", "Py_GetVersion=%s \n", Py_GetVersion());
AZ_TracePrintf("python", "Py_GetPath=%ls \n", Py_GetPath());
AZ_TracePrintf("python", "Py_GetExecPrefix=%ls \n", Py_GetExecPrefix());
AZ_TracePrintf("python", "Py_GetProgramFullPath=%ls \n", Py_GetProgramFullPath());
PyImport_AppendInittab("azlmbr_redirect", RedirectOutput::PyInit_RedirectOutput);
try
{
// ignore system location for sites site-packages
Py_IsolatedFlag = 1; // -I - Also sets Py_NoUserSiteDirectory. If removed PyNoUserSiteDirectory should be set.
Py_IgnoreEnvironmentFlag = 1; // -E
const bool initializeSignalHandlers = true;
pybind11::initialize_interpreter(initializeSignalHandlers);
RedirectOutput::Intialize(PyImport_ImportModule("azlmbr_redirect"));
// Acquire GIL before calling Python code
AZStd::lock_guard<decltype(m_lock)> lock(m_lock);
pybind11::gil_scoped_acquire acquire;
// Setup sys.path
int result = PyRun_SimpleString("import sys");
AZ_Warning("ProjectManagerWindow", result != -1, "Import sys failed");
result = PyRun_SimpleString(AZStd::string::format("sys.path.append('%s')", m_enginePath.c_str()).c_str());
AZ_Warning("ProjectManagerWindow", result != -1, "Append to sys path failed");
// import required modules
m_register = pybind11::module::import("o3de.register");
m_manifest = pybind11::module::import("o3de.manifest");
m_engineTemplate = pybind11::module::import("o3de.engine_template");
m_enableGemProject = pybind11::module::import("o3de.enable_gem");
m_disableGemProject = pybind11::module::import("o3de.disable_gem");
return result == 0 && !PyErr_Occurred();
} catch ([[maybe_unused]] const std::exception& e)
{
AZ_Warning("ProjectManagerWindow", false, "Py_Initialize() failed with %s", e.what());
return false;
}
}
bool PythonBindings::StopPython()
{
if (Py_IsInitialized())
{
RedirectOutput::Shutdown();
pybind11::finalize_interpreter();
}
else
{
AZ_Warning("ProjectManagerWindow", false, "Did not finalize since Py_IsInitialized() was false");
}
return !PyErr_Occurred();
}
bool PythonBindings::ExecuteWithLock(AZStd::function<void()> executionCallback)
{
AZStd::lock_guard<decltype(m_lock)> lock(m_lock);
pybind11::gil_scoped_release release;
pybind11::gil_scoped_acquire acquire;
try
{
executionCallback();
return true;
}
catch ([[maybe_unused]] const std::exception& e)
{
AZ_Warning("PythonBindings", false, "Python exception %s", e.what());
return false;
}
}
AZ::Outcome<EngineInfo> PythonBindings::GetEngineInfo()
{
EngineInfo engineInfo;
bool result = ExecuteWithLock([&] {
pybind11::str enginePath = m_manifest.attr("get_this_engine_path")();
auto o3deData = m_manifest.attr("load_o3de_manifest")();
if (pybind11::isinstance<pybind11::dict>(o3deData))
{
engineInfo.m_path = Py_To_String(enginePath);
engineInfo.m_defaultGemsFolder = Py_To_String(o3deData["default_gems_folder"]);
engineInfo.m_defaultProjectsFolder = Py_To_String(o3deData["default_projects_folder"]);
engineInfo.m_defaultRestrictedFolder = Py_To_String(o3deData["default_restricted_folder"]);
engineInfo.m_defaultTemplatesFolder = Py_To_String(o3deData["default_templates_folder"]);
engineInfo.m_thirdPartyPath = Py_To_String_Optional(o3deData,"third_party_path","");
}
auto engineData = m_manifest.attr("get_engine_json_data")(pybind11::none(), enginePath);
if (pybind11::isinstance<pybind11::dict>(engineData))
{
try
{
engineInfo.m_version = Py_To_String_Optional(engineData,"O3DEVersion","0.0.0.0");
engineInfo.m_name = Py_To_String_Optional(engineData,"engine_name","O3DE");
}
catch ([[maybe_unused]] const std::exception& e)
{
AZ_Warning("PythonBindings", false, "Failed to get EngineInfo from %s", Py_To_String(enginePath));
}
}
});
if (!result || !engineInfo.IsValid())
{
return AZ::Failure();
}
else
{
return AZ::Success(AZStd::move(engineInfo));
}
return AZ::Failure();
}
bool PythonBindings::SetEngineInfo(const EngineInfo& engineInfo)
{
bool result = ExecuteWithLock([&] {
pybind11::str enginePath = engineInfo.m_path.toStdString();
pybind11::str defaultProjectsFolder = engineInfo.m_defaultProjectsFolder.toStdString();
pybind11::str defaultGemsFolder = engineInfo.m_defaultGemsFolder.toStdString();
pybind11::str defaultTemplatesFolder = engineInfo.m_defaultTemplatesFolder.toStdString();
auto registrationResult = m_register.attr("register")(
enginePath, // engine_path
pybind11::none(), // project_path
pybind11::none(), // gem_path
pybind11::none(), // external_subdir_path
pybind11::none(), // template_path
pybind11::none(), // restricted_path
pybind11::none(), // repo_uri
pybind11::none(), // default_engines_folder
defaultProjectsFolder,
defaultGemsFolder,
defaultTemplatesFolder
);
if (registrationResult.cast<int>() != 0)
{
result = false;
}
auto manifest = m_manifest.attr("load_o3de_manifest")();
if (pybind11::isinstance<pybind11::dict>(manifest))
{
try
{
manifest["third_party_path"] = engineInfo.m_thirdPartyPath.toStdString();
m_manifest.attr("save_o3de_manifest")(manifest);
}
catch ([[maybe_unused]] const std::exception& e)
{
AZ_Warning("PythonBindings", false, "Failed to set third party path.");
}
}
});
return result;
}
AZ::Outcome<GemInfo> PythonBindings::GetGem(const QString& path)
{
GemInfo gemInfo = GemInfoFromPath(pybind11::str(path.toStdString()));
if (gemInfo.IsValid())
{
return AZ::Success(AZStd::move(gemInfo));
}
else
{
return AZ::Failure();
}
}
AZ::Outcome<QVector<GemInfo>> PythonBindings::GetGems()
{
QVector<GemInfo> gems;
bool result = ExecuteWithLock([&] {
// external gems
for (auto path : m_manifest.attr("get_gems")())
{
gems.push_back(GemInfoFromPath(path));
}
// gems from the engine
for (auto path : m_manifest.attr("get_engine_gems")())
{
gems.push_back(GemInfoFromPath(path));
}
});
if (!result)
{
return AZ::Failure();
}
else
{
return AZ::Success(AZStd::move(gems));
}
}
bool PythonBindings::AddProject(const QString& path)
{
bool registrationResult = false;
bool result = ExecuteWithLock(
[&]
{
pybind11::str projectPath = path.toStdString();
auto pythonRegistrationResult = m_register.attr("register")(pybind11::none(), projectPath);
// Returns an exit code so boolify it then invert result
registrationResult = !pythonRegistrationResult.cast<bool>();
});
return result && registrationResult;
}
bool PythonBindings::RemoveProject(const QString& path)
{
bool registrationResult = false;
bool result = ExecuteWithLock(
[&]
{
pybind11::str projectPath = path.toStdString();
auto pythonRegistrationResult = m_register.attr("register")(
pybind11::none(), // engine_path
projectPath, // project_path
pybind11::none(), // gem_path
pybind11::none(), // external_subdir_path
pybind11::none(), // template_path
pybind11::none(), // restricted_path
pybind11::none(), // repo_uri
pybind11::none(), // default_engines_folder
pybind11::none(), // default_projects_folder
pybind11::none(), // default_gems_folder
pybind11::none(), // default_templates_folder
pybind11::none(), // default_restricted_folder
pybind11::none(), // external_subdir_engine_path
pybind11::none(), // external_subdir_project_path
true, // remove
false // force
);
// Returns an exit code so boolify it then invert result
registrationResult = !pythonRegistrationResult.cast<bool>();
});
return result && registrationResult;
}
AZ::Outcome<ProjectInfo> PythonBindings::CreateProject(const QString& projectTemplatePath, const ProjectInfo& projectInfo)
{
ProjectInfo createdProjectInfo;
bool result = ExecuteWithLock([&] {
pybind11::str projectPath = projectInfo.m_path.toStdString();
pybind11::str projectName = projectInfo.m_projectName.toStdString();
pybind11::str templatePath = projectTemplatePath.toStdString();
auto createProjectResult = m_engineTemplate.attr("create_project")(
projectPath,
projectName,
templatePath
);
if (createProjectResult.cast<int>() == 0)
{
createdProjectInfo = ProjectInfoFromPath(projectPath);
}
});
if (!result || !createdProjectInfo.IsValid())
{
return AZ::Failure();
}
else
{
return AZ::Success(AZStd::move(createdProjectInfo));
}
}
AZ::Outcome<ProjectInfo> PythonBindings::GetProject(const QString& path)
{
ProjectInfo projectInfo = ProjectInfoFromPath(pybind11::str(path.toStdString()));
if (projectInfo.IsValid())
{
return AZ::Success(AZStd::move(projectInfo));
}
else
{
return AZ::Failure();
}
}
GemInfo PythonBindings::GemInfoFromPath(pybind11::handle path)
{
GemInfo gemInfo;
gemInfo.m_path = Py_To_String(path);
auto data = m_manifest.attr("get_gem_json_data")(pybind11::none(), path);
if (pybind11::isinstance<pybind11::dict>(data))
{
try
{
// required
gemInfo.m_name = Py_To_String(data["gem_name"]);
// optional
gemInfo.m_displayName = Py_To_String_Optional(data, "DisplayName", gemInfo.m_name);
gemInfo.m_summary = Py_To_String_Optional(data, "Summary", "");
gemInfo.m_version = Py_To_String_Optional(data, "Version", "");
if (data.contains("Tags"))
{
for (auto tag : data["Tags"])
{
gemInfo.m_features.push_back(Py_To_String(tag));
}
}
}
catch ([[maybe_unused]] const std::exception& e)
{
AZ_Warning("PythonBindings", false, "Failed to get GemInfo for gem %s", Py_To_String(path));
}
}
return gemInfo;
}
ProjectInfo PythonBindings::ProjectInfoFromPath(pybind11::handle path)
{
ProjectInfo projectInfo;
projectInfo.m_path = Py_To_String(path);
projectInfo.m_isNew = false;
auto projectData = m_manifest.attr("get_project_json_data")(pybind11::none(), path);
if (pybind11::isinstance<pybind11::dict>(projectData))
{
try
{
projectInfo.m_projectName = Py_To_String(projectData["project_name"]);
projectInfo.m_displayName = Py_To_String_Optional(projectData,"display_name", projectInfo.m_projectName);
}
catch ([[maybe_unused]] const std::exception& e)
{
AZ_Warning("PythonBindings", false, "Failed to get ProjectInfo for project %s", Py_To_String(path));
}
}
return projectInfo;
}
AZ::Outcome<QVector<ProjectInfo>> PythonBindings::GetProjects()
{
QVector<ProjectInfo> projects;
bool result = ExecuteWithLock([&] {
// external projects
for (auto path : m_manifest.attr("get_projects")())
{
projects.push_back(ProjectInfoFromPath(path));
}
// projects from the engine
for (auto path : m_manifest.attr("get_engine_projects")())
{
projects.push_back(ProjectInfoFromPath(path));
}
});
if (!result)
{
return AZ::Failure();
}
else
{
return AZ::Success(AZStd::move(projects));
}
}
bool PythonBindings::AddGemToProject(const QString& gemPath, const QString& projectPath)
{
bool result = ExecuteWithLock([&] {
pybind11::str pyGemPath = gemPath.toStdString();
pybind11::str pyProjectPath = projectPath.toStdString();
m_enableGemProject.attr("enable_gem_in_project")(
pybind11::none(), // gem_name
pyGemPath,
pybind11::none(), // project_name
pyProjectPath
);
});
return result;
}
bool PythonBindings::RemoveGemFromProject(const QString& gemPath, const QString& projectPath)
{
bool result = ExecuteWithLock([&] {
pybind11::str pyGemPath = gemPath.toStdString();
pybind11::str pyProjectPath = projectPath.toStdString();
m_disableGemProject.attr("disable_gem_in_project")(
pybind11::none(), // gem_name
pyGemPath,
pybind11::none(), // project_name
pyProjectPath
);
});
return result;
}
bool PythonBindings::UpdateProject([[maybe_unused]] const ProjectInfo& projectInfo)
{
return false;
}
ProjectTemplateInfo PythonBindings::ProjectTemplateInfoFromPath(pybind11::handle path)
{
ProjectTemplateInfo templateInfo;
templateInfo.m_path = Py_To_String(path);
auto data = m_manifest.attr("get_template_json_data")(pybind11::none(), path);
if (pybind11::isinstance<pybind11::dict>(data))
{
try
{
// required
templateInfo.m_displayName = Py_To_String(data["display_name"]);
templateInfo.m_name = Py_To_String(data["template_name"]);
templateInfo.m_summary = Py_To_String(data["summary"]);
// optional
if (data.contains("canonical_tags"))
{
for (auto tag : data["canonical_tags"])
{
templateInfo.m_canonicalTags.push_back(Py_To_String(tag));
}
}
if (data.contains("user_tags"))
{
for (auto tag : data["user_tags"])
{
templateInfo.m_canonicalTags.push_back(Py_To_String(tag));
}
}
}
catch ([[maybe_unused]] const std::exception& e)
{
AZ_Warning("PythonBindings", false, "Failed to get ProjectTemplateInfo for %s", Py_To_String(path));
}
}
return templateInfo;
}
AZ::Outcome<QVector<ProjectTemplateInfo>> PythonBindings::GetProjectTemplates()
{
QVector<ProjectTemplateInfo> templates;
bool result = ExecuteWithLock([&] {
for (auto path : m_manifest.attr("get_project_templates")())
{
templates.push_back(ProjectTemplateInfoFromPath(path));
}
});
if (!result)
{
return AZ::Failure();
}
else
{
return AZ::Success(AZStd::move(templates));
}
}
}
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