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haiku/headers/private/kernel/util/KMessage.h
Ingo Weinhold 758b1d0e05 Fixes that make Haiku build with gcc 4. Mainly out of the following 
categories:
* Missing includes (like <stdlib.h> and <string.h>).
* Linking against $(TARGET_LIBSTDC++) instead of libstdc++.r4.so.
* Local variables shadowing parameters.
* Default parameters in function definitions (as opposed to function
  declarations).
* All C++ stuff (nothrow, map, set, vector, min, max,...) must be imported
  explicitly from the std:: namespace now.
* "new (sometype)[...]" must read "new sometype[...]", even if sometype is
  something like "const char *".
* __FUNCTION__ is no longer a string literal (but a string expression), i.e.
  'printf(__FUNCTION__ ": ...\n")' is invalid code.
* A type cast results in a non-lvalue. E.g. "(char *)buffer += bytes"
  is an invalid expression.
* "friend class SomeClass" only works when SomeClass is known before.
  Otherwise the an inner class with that name is considered as friend.
  gcc 4 is much pickier about scopes.
* gcc 4 is generally stricter with respect to type conversions in C.



git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@14878 a95241bf-73f2-0310-859d-f6bbb57e9c96
2005-11-12 23:27:14 +00:00

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/*
* Copyright 2005, Ingo Weinhold, bonefish@users.sf.net. All rights reserved.
* Distributed under the terms of the MIT License.
*/
#ifndef KMESSAGE_H
#define KMESSAGE_H
#include <string.h>
#include <OS.h>
#include <TypeConstants.h>
class BMessage;
namespace BPrivate {
class KMessageField;
// KMessage
class KMessage {
public:
enum {
KMESSAGE_OWNS_BUFFER = 0x01,
KMESSAGE_INIT_FROM_BUFFER = 0x02,
KMESSAGE_READ_ONLY = 0x04,
KMESSAGE_FLAG_MASK = 0x07,
};
KMessage();
KMessage(uint32 what);
~KMessage();
status_t SetTo(uint32 what, uint32 flags = 0);
status_t SetTo(void *buffer, int32 bufferSize, uint32 what,
uint32 flags = 0);
status_t SetTo(const void *buffer, int32 bufferSize);
void Unset();
void SetWhat(uint32 what);
uint32 What() const;
const void *Buffer() const;
int32 BufferCapacity() const;
int32 ContentSize() const;
status_t AddField(const char *name, type_code type, int32 elementSize = -1,
KMessageField *field = NULL);
status_t FindField(const char *name, KMessageField *field) const;
status_t FindField(const char *name, type_code type,
KMessageField *field) const;
status_t GetNextField(KMessageField *field) const;
status_t AddData(const char *name, type_code type, const void *data,
int32 numBytes, bool isFixedSize = true);
status_t AddArray(const char *name, type_code type, const void *data,
int32 elementSize, int32 elementCount);
inline status_t AddBool(const char *name, bool value);
inline status_t AddInt8(const char *name, int8 value);
inline status_t AddInt16(const char *name, int16 value);
inline status_t AddInt32(const char *name, int32 value);
inline status_t AddInt64(const char *name, int64 value);
inline status_t AddString(const char *name, const char *value);
status_t FindData(const char *name, type_code type,
const void **data, int32 *numBytes) const;
status_t FindData(const char *name, type_code type, int32 index,
const void **data, int32 *numBytes) const;
inline status_t FindBool(const char *name, bool *value) const;
inline status_t FindBool(const char *name, int32 index, bool *value) const;
inline status_t FindInt8(const char *name, int8 *value) const;
inline status_t FindInt8(const char *name, int32 index, int8 *value) const;
inline status_t FindInt16(const char *name, int16 *value) const;
inline status_t FindInt16(const char *name, int32 index, int16 *value) const;
inline status_t FindInt32(const char *name, int32 *value) const;
inline status_t FindInt32(const char *name, int32 index, int32 *value) const;
inline status_t FindInt64(const char *name, int64 *value) const;
inline status_t FindInt64(const char *name, int32 index, int64 *value) const;
inline status_t FindString(const char *name, const char **value) const;
inline status_t FindString(const char *name, int32 index,
const char **value) const;
// message delivery
team_id Sender() const;
int32 TargetToken() const;
port_id ReplyPort() const;
int32 ReplyToken() const;
status_t SendTo(port_id targetPort, int32 targetToken = -1,
port_id replyPort = -1, int32 replyToken = -1, bigtime_t timeout = -1,
team_id senderTeam = -1);
status_t SendTo(port_id targetPort, int32 targetToken,
KMessage* reply, bigtime_t deliveryTimeout = -1,
bigtime_t replyTimeout = -1, team_id senderTeam = -1);
status_t SendReply(KMessage* message, port_id replyPort = -1,
int32 replyToken = -1, bigtime_t timeout = -1, team_id senderTeam = -1);
status_t SendReply(KMessage* message, KMessage* reply,
bigtime_t deliveryTimeout = -1, bigtime_t replyTimeout = -1,
team_id senderTeam = -1);
status_t ReceiveFrom(port_id fromPort, bigtime_t timeout = -1);
private:
friend class KMessageField;
friend class ::BMessage; // not so nice, but makes things easier
struct Header {
uint32 magic;
int32 size;
uint32 what;
team_id sender;
int32 targetToken;
port_id replyPort;
int32 replyToken;
};
struct FieldHeader;
struct FieldValueHeader;
Header *_Header() const;
int32 _BufferOffsetFor(const void* data) const;
FieldHeader *_FirstFieldHeader() const;
FieldHeader *_LastFieldHeader() const;
FieldHeader *_FieldHeaderForOffset(int32 offset) const;
status_t _AddField(const char *name, type_code type, int32 elementSize,
KMessageField *field);
status_t _AddFieldData(KMessageField *field, const void *data,
int32 elementSize, int32 elementCount);
status_t _InitFromBuffer();
void _InitBuffer(uint32 what);
void _CheckBuffer(); // debugging only
status_t _AllocateSpace(int32 size, bool alignAddress, bool alignSize,
void **address, int32 *alignedSize);
int32 _CapacityFor(int32 size);
template<typename T> inline status_t _FindType(const char* name,
type_code type, int32 index, T *value) const;
Header fHeader; // pointed to by fBuffer, if nothing is
// allocated
void* fBuffer;
int32 fBufferCapacity;
uint32 fFlags;
int32 fLastFieldOffset;
static const uint32 kMessageHeaderMagic;
};
// KMessageField
class KMessageField {
public:
KMessageField();
void Unset();
KMessage *Message() const;
const char *Name() const;
type_code TypeCode() const;
bool HasFixedElementSize() const;
int32 ElementSize() const; // if HasFixedElementSize()
status_t AddElement(const void *data, int32 size = -1);
status_t AddElements(const void *data, int32 count, int32 elementSize = -1);
const void *ElementAt(int32 index, int32 *size = NULL) const;
int32 CountElements() const;
private:
void SetTo(KMessage *message, int32 headerOffset);
KMessage::FieldHeader* _Header() const;
friend class KMessage;
KMessage *fMessage;
int32 fHeaderOffset;
};
} // namespace BPrivate
using BPrivate::KMessage;
using BPrivate::KMessageField;
// #pragma mark -
// inline functions
// AddBool
inline
status_t
KMessage::AddBool(const char *name, bool value)
{
return AddData(name, B_BOOL_TYPE, &value, sizeof(bool), true);
}
// AddInt8
inline
status_t
KMessage::AddInt8(const char *name, int8 value)
{
return AddData(name, B_INT8_TYPE, &value, sizeof(int8), true);
}
// AddInt16
inline
status_t
KMessage::AddInt16(const char *name, int16 value)
{
return AddData(name, B_INT16_TYPE, &value, sizeof(int16), true);
}
// AddInt32
inline
status_t
KMessage::AddInt32(const char *name, int32 value)
{
return AddData(name, B_INT32_TYPE, &value, sizeof(int32), true);
}
// AddInt64
inline
status_t
KMessage::AddInt64(const char *name, int64 value)
{
return AddData(name, B_INT64_TYPE, &value, sizeof(int64), true);
}
// AddString
inline
status_t
KMessage::AddString(const char *name, const char *value)
{
if (!value)
return B_BAD_VALUE;
return AddData(name, B_STRING_TYPE, value, strlen(value) + 1, false);
}
// #pragma mark -
// FindBool
inline
status_t
KMessage::FindBool(const char *name, bool *value) const
{
return FindBool(name, 0, value);
}
// FindBool
inline
status_t
KMessage::FindBool(const char *name, int32 index, bool *value) const
{
return _FindType(name, B_BOOL_TYPE, index, value);
}
// FindInt8
inline
status_t
KMessage::FindInt8(const char *name, int8 *value) const
{
return FindInt8(name, 0, value);
}
// FindInt8
inline
status_t
KMessage::FindInt8(const char *name, int32 index, int8 *value) const
{
return _FindType(name, B_INT8_TYPE, index, value);
}
// FindInt16
inline
status_t
KMessage::FindInt16(const char *name, int16 *value) const
{
return FindInt16(name, 0, value);
}
// FindInt16
inline
status_t
KMessage::FindInt16(const char *name, int32 index, int16 *value) const
{
return _FindType(name, B_INT16_TYPE, index, value);
}
// FindInt32
inline
status_t
KMessage::FindInt32(const char *name, int32 *value) const
{
return FindInt32(name, 0, value);
}
// FindInt32
inline
status_t
KMessage::FindInt32(const char *name, int32 index, int32 *value) const
{
return _FindType(name, B_INT32_TYPE, index, value);
}
// FindInt64
inline
status_t
KMessage::FindInt64(const char *name, int64 *value) const
{
return FindInt64(name, 0, value);
}
// FindInt64
inline
status_t
KMessage::FindInt64(const char *name, int32 index, int64 *value) const
{
return _FindType(name, B_INT64_TYPE, index, value);
}
// FindString
inline
status_t
KMessage::FindString(const char *name, const char **value) const
{
return FindString(name, 0, value);
}
// FindString
inline
status_t
KMessage::FindString(const char *name, int32 index, const char **value) const
{
int32 size;
return FindData(name, B_STRING_TYPE, index, (const void**)value, &size);
}
#endif // KMESSAGE_H
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