view release on metacpan or  search on metacpan

lib/Affix.h  view on Meta::CPAN

    OP_RET_SINT8,
    OP_RET_UINT8,
    OP_RET_SINT16,
    OP_RET_UINT16,
    OP_RET_SINT32,
    OP_RET_UINT32,
    OP_RET_SINT64,
    OP_RET_UINT64,
    OP_RET_FLOAT,
    OP_RET_FLOAT16,
    OP_RET_DOUBLE,
    OP_RET_LONGDOUBLE,
    OP_RET_SINT128,
    OP_RET_UINT128,
    OP_RET_PTR,        // Generic pin return
    OP_RET_PTR_CHAR,   // Returns Perl String (UTF8)
    OP_RET_PTR_WCHAR,  // Returns Perl String (from Wide)
    OP_RET_SV,         // Returns SV* directly
    OP_RET_CUSTOM      // Complex types (structs, arrays)
} Affix_Opcode;

/// A single step in the pre-compiled execution plan.
struct Affix_Plan_Step {
    Affix_Step_Executor executor;  // Function pointer to the executor for this step.
    Affix_Opcode opcode;           // The instruction for the VM
    Affix_Step_Data data;          // Pre-calculated data needed by the executor.
};
/// Represents a forward FFI call (a Perl sub that calls a C function).
/// This struct holds the pre-compiled execution plan and is attached to the generated XS subroutine.
struct Affix {
    infix_forward_t * infix;       ///< Handle to the infix trampoline and type info.
    infix_arena_t * args_arena;    ///< Fast memory allocator for arguments during a call.
    infix_arena_t * ret_arena;     ///< Fast memory allocator for return value during a call.
    infix_cif_func cif;            ///< A direct function pointer to the JIT-compiled trampoline code.
    infix_library_t * lib_handle;  ///< If affix() loaded a library itself, stores the handle for cleanup.
    SV * return_sv;                ///< Pre-allocated, reusable SV to hold the return value.
    Affix_Plan_Step * plan;        ///< The linear array of operations (the "execution plan").
    size_t plan_length;            ///< The total number of steps in the plan.
    size_t num_args;               ///< Cached number of arguments for faster access.
    size_t total_args_size;        ///< Pre-calculated total size of the C arguments buffer.
    // Pre-compiled plan for handling "out" parameters after the C call.
    OutParamInfo * out_param_info;
    size_t num_out_params;
    const infix_type * ret_type;
    const infix_type * unwrapped_ret_type;  // Pre-unwrapped for OP_RET_PTR
    Affix_Pull ret_pull_handler;            ///< Cached handler for marshalling the return value.
    Affix_Opcode ret_opcode;                ///< Optimized return opcode.
    void ** c_args;

    // Reconstruction info for threading/cloning
    char * sig_str;
    char * sym_name;
    void * target_addr;
    char * lib_path;
    dTHXfield(owner_perl)

        // Variadic demo
        HV * variadic_cache;
    size_t num_fixed_args;
};
/// Represents an Affix::Pin object, a blessed Perl scalar that wraps a raw C pointer.
typedef struct {
    void * pointer;              ///< The raw C memory address.
    const infix_type * type;     ///< Infix's description of the data type at 'pointer'. Used for dereferencing.
    infix_arena_t * type_arena;  ///< Memory arena that owns the 'type' structure.
    bool managed;                ///< If true, Perl owns the 'pointer' and will safefree() it on DESTROY.
    UV ref_count;                ///< Refcount to prevent premature freeing when SVs are copied.
    size_t size;                 ///< Size of malloc'd void pointers.
    void (*destructor)(void *);  ///< Custom destructor function (e.g. SDL_DestroyWindow).
    SV * destructor_lib_sv;      ///< Perl object (Affix::Lib) to keep alive for the destructor.
    SV * owner_sv;               ///< Perl object that owns the memory, kept alive by this pin.
    size_t bit_offset;           ///< Bit offset (for bitfields)
    size_t bit_width;            ///< Bit width (for bitfields, 0 = not a bitfield)
} Affix_Pin;
/// Holds the necessary data for a callback, specifically the Perl subroutine to call.
typedef struct {
    SV * coderef_rv;  ///< A reference (RV) to the Perl coderef. We hold this to keep it alive.
    dTHXfield(perl)   ///< The thread context in which the callback was created.
} Affix_Callback_Data;
/// Internal struct holding the C resources that are magically attached
///        to a user's coderef (CV*) when it is first used as a callback.
typedef struct {
    infix_reverse_t * reverse_ctx;  ///< Handle to the infix reverse-call trampoline.
} Implicit_Callback_Magic;
/// An entry in the thread-local library registry hash.
typedef struct {
    infix_library_t * lib;  ///< The handle to the opened library.
    UV ref_count;           ///< Reference count. The library is closed only when this reaches 0.
} LibRegistryEntry;

// Struct for the Direct Marshalling (aka "bundle") backend.
/// Represents a forward FFI call created with the high-performance direct marshalling API.
struct Affix_Backend {
    infix_forward_t * infix;       ///< Handle to the infix trampoline and type info.
    infix_direct_cif_func cif;     ///< Direct pointer to the specialized JIT code.
    infix_library_t * lib_handle;  ///< Handle for library cleanup.
    const infix_type * ret_type;   ///< Cached return type info.
    Affix_Pull pull_handler;       ///< Pre-resolved handler for marshalling the return value.
    Affix_Opcode ret_opcode;       ///< Optimized return opcode.
    size_t num_args;               ///< Cached number of arguments.

    char * sig_str;
    char * sym_name;
    void * target_addr;
    char * lib_path;
    dTHXfield(owner_perl)
};

// Trigger function for the experimental backend (shh!)
extern void Affix_trigger_backend(pTHX_ CV *);

// Main execution trigger
extern void Affix_trigger_stack(pTHX_ CV *);
extern void Affix_trigger_arena(pTHX_ CV *);
extern void Affix_trigger_variadic(pTHX_ CV *);

// Marshalling (Perl -> C)
void sv2ptr(pTHX_ Affix * affix, SV * perl_sv, void * c_ptr, const infix_type * type);
void push_struct(pTHX_ Affix * affix, const infix_type * type, SV * sv, void * p);
void push_array(pTHX_ Affix * affix, const infix_type * type, SV * sv, void * p);
void push_reverse_trampoline(pTHX_ Affix * affix, const infix_type * type, SV * sv, void * p);