/* * Copyright (c) 2009, Wayne Meissner * * Copyright (c) 2008-2013, Ruby FFI project contributors * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * Neither the name of the Ruby FFI project nor the * names of its contributors may be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #ifndef _MSC_VER #include #endif #include #include #include #include "rbffi.h" #include "compat.h" #include "Types.h" #include "Type.h" typedef struct BuiltinType_ { Type type; char* name; } BuiltinType; static void builtin_type_free(BuiltinType *); VALUE rbffi_TypeClass = Qnil; static VALUE classBuiltinType = Qnil; static VALUE moduleNativeType = Qnil; static VALUE typeMap = Qnil, sizeMap = Qnil; static ID id_find_type = 0, id_type_size = 0, id_size = 0; static VALUE type_allocate(VALUE klass) { Type* type; VALUE obj = Data_Make_Struct(klass, Type, NULL, -1, type); type->nativeType = -1; type->ffiType = &ffi_type_void; return obj; } /* * Document-method: initialize * call-seq: initialize(value) * @param [Fixnum,Type] value * @return [self] */ static VALUE type_initialize(VALUE self, VALUE value) { Type* type; Type* other; Data_Get_Struct(self, Type, type); if (FIXNUM_P(value)) { type->nativeType = FIX2INT(value); } else if (rb_obj_is_kind_of(value, rbffi_TypeClass)) { Data_Get_Struct(value, Type, other); type->nativeType = other->nativeType; type->ffiType = other->ffiType; } else { rb_raise(rb_eArgError, "wrong type"); } return self; } /* * call-seq: type.size * @return [Fixnum] * Return type's size, in bytes. */ static VALUE type_size(VALUE self) { Type *type; Data_Get_Struct(self, Type, type); return INT2FIX(type->ffiType->size); } /* * call-seq: type.alignment * @return [Fixnum] * Get Type alignment. */ static VALUE type_alignment(VALUE self) { Type *type; Data_Get_Struct(self, Type, type); return INT2FIX(type->ffiType->alignment); } /* * call-seq: type.inspect * @return [String] * Inspect {Type} object. */ static VALUE type_inspect(VALUE self) { char buf[100]; Type *type; Data_Get_Struct(self, Type, type); snprintf(buf, sizeof(buf), "#<%s:%p size=%d alignment=%d>", rb_obj_classname(self), type, (int) type->ffiType->size, (int) type->ffiType->alignment); return rb_str_new2(buf); } static VALUE builtin_type_new(VALUE klass, int nativeType, ffi_type* ffiType, const char* name) { BuiltinType* type; VALUE obj = Qnil; obj = Data_Make_Struct(klass, BuiltinType, NULL, builtin_type_free, type); type->name = strdup(name); type->type.nativeType = nativeType; type->type.ffiType = ffiType; return obj; } static void builtin_type_free(BuiltinType *type) { free(type->name); xfree(type); } /* * call-seq: type.inspect * @return [String] * Inspect {Type::Builtin} object. */ static VALUE builtin_type_inspect(VALUE self) { char buf[100]; BuiltinType *type; Data_Get_Struct(self, BuiltinType, type); snprintf(buf, sizeof(buf), "#<%s:%s size=%d alignment=%d>", rb_obj_classname(self), type->name, (int) type->type.ffiType->size, type->type.ffiType->alignment); return rb_str_new2(buf); } int rbffi_type_size(VALUE type) { int t = TYPE(type); if (t == T_FIXNUM || t == T_BIGNUM) { return NUM2INT(type); } else if (t == T_SYMBOL) { /* * Try looking up directly in the type and size maps */ VALUE nType; if ((nType = rb_hash_lookup(typeMap, type)) != Qnil) { if (rb_obj_is_kind_of(nType, rbffi_TypeClass)) { Type* type; Data_Get_Struct(nType, Type, type); return (int) type->ffiType->size; } else if (rb_respond_to(nType, id_size)) { return NUM2INT(rb_funcall2(nType, id_size, 0, NULL)); } } /* Not found - call up to the ruby version to resolve */ return NUM2INT(rb_funcall2(rbffi_FFIModule, id_type_size, 1, &type)); } else { return NUM2INT(rb_funcall2(type, id_size, 0, NULL)); } } VALUE rbffi_Type_Lookup(VALUE name) { int t = TYPE(name); if (t == T_SYMBOL || t == T_STRING) { /* * Try looking up directly in the type Map */ VALUE nType; if ((nType = rb_hash_lookup(typeMap, name)) != Qnil && rb_obj_is_kind_of(nType, rbffi_TypeClass)) { return nType; } } else if (rb_obj_is_kind_of(name, rbffi_TypeClass)) { return name; } /* Nothing found - let caller handle raising exceptions */ return Qnil; } void rbffi_Type_Init(VALUE moduleFFI) { /* * Document-class: FFI::Type * This class manages C types. * * It embbed {FFI::Type::Builtin} objects as constants (for names, * see {FFI::NativeType}). */ rbffi_TypeClass = rb_define_class_under(moduleFFI, "Type", rb_cObject); /* * Document-constant: FFI::TypeDefs */ rb_define_const(moduleFFI, "TypeDefs", typeMap = rb_hash_new()); rb_define_const(moduleFFI, "SizeTypes", sizeMap = rb_hash_new()); rb_global_variable(&typeMap); rb_global_variable(&sizeMap); id_find_type = rb_intern("find_type"); id_type_size = rb_intern("type_size"); id_size = rb_intern("size"); /* * Document-class: FFI::Type::Builtin * Class for Built-in types. */ classBuiltinType = rb_define_class_under(rbffi_TypeClass, "Builtin", rbffi_TypeClass); /* * Document-module: FFI::NativeType * This module defines constants for native (C) types. * * ==Native type constants * Native types are defined by constants : * * INT8, SCHAR, CHAR * * UINT8, UCHAR * * INT16, SHORT, SSHORT * * UINT16, USHORT * * INT32,, INT, SINT * * UINT32, UINT * * INT64, LONG_LONG, SLONG_LONG * * UINT64, ULONG_LONG * * LONG, SLONG * * ULONG * * FLOAT32, FLOAT * * FLOAT64, DOUBLE * * POINTER * * CALLBACK * * FUNCTION * * CHAR_ARRAY * * BOOL * * STRING (immutable string, nul terminated) * * STRUCT (struct-b-value param or result) * * ARRAY (array type definition) * * MAPPED (custom native type) * For function return type only : * * VOID * For function argument type only : * * BUFFER_IN * * BUFFER_OUT * * VARARGS (function takes a variable number of arguments) * * All these constants are exported to {FFI} module prefixed with "TYPE_". * They are objets from {FFI::Type::Builtin} class. */ moduleNativeType = rb_define_module_under(moduleFFI, "NativeType"); /* * Document-global: FFI::Type */ rb_global_variable(&rbffi_TypeClass); rb_global_variable(&classBuiltinType); rb_global_variable(&moduleNativeType); rb_define_alloc_func(rbffi_TypeClass, type_allocate); rb_define_method(rbffi_TypeClass, "initialize", type_initialize, 1); rb_define_method(rbffi_TypeClass, "size", type_size, 0); rb_define_method(rbffi_TypeClass, "alignment", type_alignment, 0); rb_define_method(rbffi_TypeClass, "inspect", type_inspect, 0); /* Make Type::Builtin non-allocatable */ rb_undef_method(CLASS_OF(classBuiltinType), "new"); rb_define_method(classBuiltinType, "inspect", builtin_type_inspect, 0); rb_global_variable(&rbffi_TypeClass); rb_global_variable(&classBuiltinType); /* Define all the builtin types */ #define T(x, ffiType) do { \ VALUE t = Qnil; \ rb_define_const(rbffi_TypeClass, #x, t = builtin_type_new(classBuiltinType, NATIVE_##x, ffiType, #x)); \ rb_define_const(moduleNativeType, #x, t); \ rb_define_const(moduleFFI, "TYPE_" #x, t); \ } while(0) #define A(old_type, new_type) do { \ VALUE t = rb_const_get(rbffi_TypeClass, rb_intern(#old_type)); \ rb_const_set(rbffi_TypeClass, rb_intern(#new_type), t); \ } while(0) /* * Document-constant: FFI::Type::Builtin::VOID */ T(VOID, &ffi_type_void); T(INT8, &ffi_type_sint8); A(INT8, SCHAR); A(INT8, CHAR); T(UINT8, &ffi_type_uint8); A(UINT8, UCHAR); T(INT16, &ffi_type_sint16); A(INT16, SHORT); A(INT16, SSHORT); T(UINT16, &ffi_type_uint16); A(UINT16, USHORT); T(INT32, &ffi_type_sint32); A(INT32, INT); A(INT32, SINT); T(UINT32, &ffi_type_uint32); A(UINT32, UINT); T(INT64, &ffi_type_sint64); A(INT64, LONG_LONG); A(INT64, SLONG_LONG); T(UINT64, &ffi_type_uint64); A(UINT64, ULONG_LONG); T(LONG, &ffi_type_slong); A(LONG, SLONG); T(ULONG, &ffi_type_ulong); T(FLOAT32, &ffi_type_float); A(FLOAT32, FLOAT); T(FLOAT64, &ffi_type_double); A(FLOAT64, DOUBLE); T(LONGDOUBLE, &ffi_type_longdouble); T(POINTER, &ffi_type_pointer); T(STRING, &ffi_type_pointer); T(BUFFER_IN, &ffi_type_pointer); T(BUFFER_OUT, &ffi_type_pointer); T(BUFFER_INOUT, &ffi_type_pointer); T(BOOL, &ffi_type_uchar); T(VARARGS, &ffi_type_void); }