ai_v/venv/Lib/site-packages/greenlet/greenlet_exceptions.hpp

#ifndef GREENLET_EXCEPTIONS_HPP
#define GREENLET_EXCEPTIONS_HPP

#define PY_SSIZE_T_CLEAN
#include <Python.h>
#include <stdexcept>
#include <string>

#ifdef __clang__
#    pragma clang diagnostic push
#    pragma clang diagnostic ignored "-Wunused-function"
#endif

namespace greenlet {

    class PyErrOccurred : public std::runtime_error
    {
    public:

        // CAUTION: In debug builds, may run arbitrary Python code.
        static const PyErrOccurred
        from_current()
        {
            assert(PyErr_Occurred());
#ifndef NDEBUG
            // This is not exception safe, and
            // not necessarily safe in general (what if it switches?)
            // But we only do this in debug mode, where we are in
            // tight control of what exceptions are getting raised and
            // can prevent those issues.

            // You can't call PyObject_Str with a pending exception.
            PyObject* typ;
            PyObject* val;
            PyObject* tb;

            PyErr_Fetch(&typ, &val, &tb);
            PyObject* typs = PyObject_Str(typ);
            PyObject* vals = PyObject_Str(val ? val : typ);
            const char* typ_msg = PyUnicode_AsUTF8(typs);
            const char* val_msg = PyUnicode_AsUTF8(vals);
            PyErr_Restore(typ, val, tb);

            std::string msg(typ_msg);
            msg += ": ";
            msg += val_msg;
            PyErrOccurred ex(msg);
            Py_XDECREF(typs);
            Py_XDECREF(vals);

            return ex;
#else
            return PyErrOccurred();
#endif
        }

        PyErrOccurred() : std::runtime_error("")
        {
            assert(PyErr_Occurred());
        }

        PyErrOccurred(const std::string& msg) : std::runtime_error(msg)
        {
            assert(PyErr_Occurred());
        }

        PyErrOccurred(PyObject* exc_kind, const char* const msg)
            : std::runtime_error(msg)
        {
            PyErr_SetString(exc_kind, msg);
        }

        PyErrOccurred(PyObject* exc_kind, const std::string msg)
            : std::runtime_error(msg)
        {
            // This copies the c_str, so we don't have any lifetime
            // issues to worry about.
            PyErr_SetString(exc_kind, msg.c_str());
        }

        PyErrOccurred(PyObject* exc_kind,
                      const std::string msg, //This is the format
                                             //string; that's not
                                             //usually safe!

                      PyObject* borrowed_obj_one, PyObject* borrowed_obj_two)
            : std::runtime_error(msg)
        {

            //This is designed specifically for the
            //``check_switch_allowed`` function.

            // PyObject_Str and PyObject_Repr are safe to call with
            // NULL pointers; they return the string "<NULL>" in that
            // case.
            // This function always returns null.
            PyErr_Format(exc_kind,
                         msg.c_str(),
                         borrowed_obj_one, borrowed_obj_two);
        }
    };

    class TypeError : public PyErrOccurred
    {
    public:
        TypeError(const char* const what)
            : PyErrOccurred(PyExc_TypeError, what)
        {
        }
        TypeError(const std::string what)
            : PyErrOccurred(PyExc_TypeError, what)
        {
        }
    };

    class ValueError : public PyErrOccurred
    {
    public:
        ValueError(const char* const what)
            : PyErrOccurred(PyExc_ValueError, what)
        {
        }
    };

    class AttributeError : public PyErrOccurred
    {
    public:
        AttributeError(const char* const what)
            : PyErrOccurred(PyExc_AttributeError, what)
        {
        }
    };

    /**
     * Calls `Py_FatalError` when constructed, so you can't actually
     * throw this. It just makes static analysis easier.
     */
    class PyFatalError : public std::runtime_error
    {
    public:
        PyFatalError(const char* const msg)
            : std::runtime_error(msg)
        {
            Py_FatalError(msg);
        }
    };

    static inline PyObject*
    Require(PyObject* p, const std::string& msg="")
    {
        if (!p) {
            throw PyErrOccurred(msg);
        }
        return p;
    };

    static inline void
    Require(const int retval)
    {
        if (retval < 0) {
            throw PyErrOccurred();
        }
    };


};
#ifdef __clang__
#    pragma clang diagnostic pop
#endif

#endif
feat(api): 实现图像生成及后台同步功能 - 新增图像生成接口，支持试用、积分和自定义API Key模式 - 实现生成图片结果异步上传至MinIO存储，带重试机制 - 优化积分预扣除和异常退还逻辑，保障用户积分准确 - 添加获取生成历史记录接口，支持时间范围和分页 - 提供本地字典配置接口，支持模型、比例、提示模板和尺寸 - 实现图片批量上传接口，支持S3兼容对象存储 feat(admin): 增加管理员角色管理与权限分配接口 - 实现角色列表查询、角色创建、更新及删除功能 - 增加权限列表查询接口 - 实现用户角色分配接口，便于统一管理用户权限 - 增加系统字典增删查改接口，支持分类过滤和排序 - 权限控制全面覆盖管理接口，保证安全访问 feat(auth): 完善用户登录注册及权限相关接口与页面 - 实现手机号验证码发送及校验功能，保障注册安全 - 支持手机号注册、登录及退出接口，集成日志记录 - 增加修改密码功能，验证原密码后更新 - 提供动态导航菜单接口，基于权限展示不同菜单 - 实现管理界面路由及日志、角色、字典管理页面访问权限控制 - 添加系统日志查询接口，支持关键词和等级筛选 feat(app): 初始化Flask应用并配置蓝图与数据库 - 创建应用程序工厂，加载配置，初始化数据库和Redis客户端 - 注册认证、API及管理员蓝图，整合路由 - 根路由渲染主页模板 - 应用上下文中自动创建数据库表，保证运行环境准备完毕 feat(database): 提供数据库创建与迁移支持脚本 - 新增数据库创建脚本，支持自动检测是否已存在 - 添加数据库表初始化脚本，支持创建和删除所有表 - 实现RBAC权限初始化，包含基础权限和角色创建 - 新增字段手动修复脚本，添加用户API Key和积分字段 - 强制迁移脚本支持清理连接和修复表结构，初始化默认数据及角色分配 feat(config): 新增系统配置参数 - 配置数据库、Redis、Session和MinIO相关参数 - 添加AI接口地址及试用Key配置 - 集成阿里云短信服务配置及开发模式相关参数 feat(extensions): 初始化数据库、Redis和MinIO客户端 - 创建全局SQLAlchemy数据库实例和Redis客户端 - 配置基于boto3的MinIO兼容S3客户端 chore(logs): 添加示例系统日志文件 - 记录用户请求、验证码发送成功与失败的日志信息 2026-01-12 00:53:31 +08:00			`#ifndef GREENLET_EXCEPTIONS_HPP`
			`#define GREENLET_EXCEPTIONS_HPP`

			`#define PY_SSIZE_T_CLEAN`
			`#include <Python.h>`
			`#include <stdexcept>`
			`#include <string>`

			`#ifdef __clang__`
			`# pragma clang diagnostic push`
			`# pragma clang diagnostic ignored "-Wunused-function"`
			`#endif`

			`namespace greenlet {`

			`class PyErrOccurred : public std::runtime_error`
			`{`
			`public:`

			`// CAUTION: In debug builds, may run arbitrary Python code.`
			`static const PyErrOccurred`
			`from_current()`
			`{`
			`assert(PyErr_Occurred());`
			`#ifndef NDEBUG`
			`// This is not exception safe, and`
			`// not necessarily safe in general (what if it switches?)`
			`// But we only do this in debug mode, where we are in`
			`// tight control of what exceptions are getting raised and`
			`// can prevent those issues.`

			`// You can't call PyObject_Str with a pending exception.`
			`PyObject* typ;`
			`PyObject* val;`
			`PyObject* tb;`

			`PyErr_Fetch(&typ, &val, &tb);`
			`PyObject* typs = PyObject_Str(typ);`
			`PyObject* vals = PyObject_Str(val ? val : typ);`
			`const char* typ_msg = PyUnicode_AsUTF8(typs);`
			`const char* val_msg = PyUnicode_AsUTF8(vals);`
			`PyErr_Restore(typ, val, tb);`

			`std::string msg(typ_msg);`
			`msg += ": ";`
			`msg += val_msg;`
			`PyErrOccurred ex(msg);`
			`Py_XDECREF(typs);`
			`Py_XDECREF(vals);`

			`return ex;`
			`#else`
			`return PyErrOccurred();`
			`#endif`
			`}`

			`PyErrOccurred() : std::runtime_error("")`
			`{`
			`assert(PyErr_Occurred());`
			`}`

			`PyErrOccurred(const std::string& msg) : std::runtime_error(msg)`
			`{`
			`assert(PyErr_Occurred());`
			`}`

			`PyErrOccurred(PyObject* exc_kind, const char* const msg)`
			`: std::runtime_error(msg)`
			`{`
			`PyErr_SetString(exc_kind, msg);`
			`}`

			`PyErrOccurred(PyObject* exc_kind, const std::string msg)`
			`: std::runtime_error(msg)`
			`{`
			`// This copies the c_str, so we don't have any lifetime`
			`// issues to worry about.`
			`PyErr_SetString(exc_kind, msg.c_str());`
			`}`

			`PyErrOccurred(PyObject* exc_kind,`
			`const std::string msg, //This is the format`
			`//string; that's not`
			`//usually safe!`

			`PyObject* borrowed_obj_one, PyObject* borrowed_obj_two)`
			`: std::runtime_error(msg)`
			`{`

			`//This is designed specifically for the`
			//``check_switch_allowed`` function.

			`// PyObject_Str and PyObject_Repr are safe to call with`
			`// NULL pointers; they return the string "<NULL>" in that`
			`// case.`
			`// This function always returns null.`
			`PyErr_Format(exc_kind,`
			`msg.c_str(),`
			`borrowed_obj_one, borrowed_obj_two);`
			`}`
			`};`

			`class TypeError : public PyErrOccurred`
			`{`
			`public:`
			`TypeError(const char* const what)`
			`: PyErrOccurred(PyExc_TypeError, what)`
			`{`
			`}`
			`TypeError(const std::string what)`
			`: PyErrOccurred(PyExc_TypeError, what)`
			`{`
			`}`
			`};`

			`class ValueError : public PyErrOccurred`
			`{`
			`public:`
			`ValueError(const char* const what)`
			`: PyErrOccurred(PyExc_ValueError, what)`
			`{`
			`}`
			`};`

			`class AttributeError : public PyErrOccurred`
			`{`
			`public:`
			`AttributeError(const char* const what)`
			`: PyErrOccurred(PyExc_AttributeError, what)`
			`{`
			`}`
			`};`

			`/**`
			* Calls `Py_FatalError` when constructed, so you can't actually
			`* throw this. It just makes static analysis easier.`
			`*/`
			`class PyFatalError : public std::runtime_error`
			`{`
			`public:`
			`PyFatalError(const char* const msg)`
			`: std::runtime_error(msg)`
			`{`
			`Py_FatalError(msg);`
			`}`
			`};`

			`static inline PyObject*`
			`Require(PyObject* p, const std::string& msg="")`
			`{`
			`if (!p) {`
			`throw PyErrOccurred(msg);`
			`}`
			`return p;`
			`};`

			`static inline void`
			`Require(const int retval)`
			`{`
			`if (retval < 0) {`
			`throw PyErrOccurred();`
			`}`
			`};`


			`};`
			`#ifdef __clang__`
			`# pragma clang diagnostic pop`
			`#endif`

			`#endif`