libdex/DexProto.h - platform/dalvik - Git at Google

 /*
  * Copyright (C) 2008 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 /*
  * Functions for dealing with method prototypes
  */

 #ifndef _LIBDEX_DEXPROTO
 #define _LIBDEX_DEXPROTO

 #include "DexFile.h"

 /*
  * Single-thread single-string cache. This structure holds a pointer to
  * a string which is semi-automatically manipulated by some of the
  * method prototype functions. Functions which use in this struct
  * generally return a string that is valid until the next
  * time the same DexStringCache is used.
  */
 typedef struct DexStringCache {
     char* value;          /* the latest value */
     size_t allocatedSize; /* size of the allocated buffer, if allocated */
     char buffer[120];     /* buffer used to hold small-enough results */
 } DexStringCache;

 /*
  * Initialize the given DexStringCache. Use this function before passing
  * one into any other function.
  */
 void dexStringCacheInit(DexStringCache* pCache);

 /*
  * Release the allocated contents of the given DexStringCache, if any.
  * Use this function after your last use of a DexStringCache.
  */
 void dexStringCacheRelease(DexStringCache* pCache);

 /*
  * If the given DexStringCache doesn't already point at the given value,
  * make a copy of it into the cache. This always returns a writable
  * pointer to the contents (whether or not a copy had to be made). This
  * function is intended to be used after making a call that at least
  * sometimes doesn't populate a DexStringCache.
  */
 char* dexStringCacheEnsureCopy(DexStringCache* pCache, const char* value);

 /*
  * Abandon the given DexStringCache, and return a writable copy of the
  * given value (reusing the string cache's allocation if possible).
  * The return value must be free()d by the caller. Use this instead of
  * dexStringCacheRelease() if you want the buffer to survive past the
  * scope of the DexStringCache.
  */
 char* dexStringCacheAbandon(DexStringCache* pCache, const char* value);

 /*
  * Method prototype structure, which refers to a protoIdx in a
  * particular DexFile.
  */
 typedef struct DexProto {
     const DexFile* dexFile;     /* file the idx refers to */
     u4 protoIdx;                /* index into proto_ids table of dexFile */
 } DexProto;

 /*
  * Set the given DexProto to refer to the prototype of the given MethodId.
  */
 DEX_INLINE void dexProtoSetFromMethodId(DexProto* pProto,
     const DexFile* pDexFile, const DexMethodId* pMethodId)
 {
     pProto->dexFile = pDexFile;
     pProto->protoIdx = pMethodId->protoIdx;
 }

 /*
  * Get the short-form method descriptor for the given prototype. The
  * prototype must be protoIdx-based.
  */
 const char* dexProtoGetShorty(const DexProto* pProto);

 /*
  * Get the full method descriptor for the given prototype.
  */
 const char* dexProtoGetMethodDescriptor(const DexProto* pProto,
     DexStringCache* pCache);

 /*
  * Get a copy of the descriptor string associated with the given prototype.
  * The returned pointer must be free()ed by the caller.
  */
 char* dexProtoCopyMethodDescriptor(const DexProto* pProto);

 /*
  * Get the parameter descriptors for the given prototype. This is the
  * concatenation of all the descriptors for all the parameters, in
  * order, with no other adornment.
  */
 const char* dexProtoGetParameterDescriptors(const DexProto* pProto,
     DexStringCache* pCache);

 /*
  * Return the utf-8 encoded descriptor string from the proto of a MethodId.
  */
 DEX_INLINE const char* dexGetDescriptorFromMethodId(const DexFile* pDexFile,
         const DexMethodId* pMethodId, DexStringCache* pCache)
 {
     DexProto proto;

     dexProtoSetFromMethodId(&proto, pDexFile, pMethodId);
     return dexProtoGetMethodDescriptor(&proto, pCache);
 }

 /*
  * Get a copy of the utf-8 encoded method descriptor string from the
  * proto of a MethodId. The returned pointer must be free()ed by the
  * caller.
  */
 DEX_INLINE char* dexCopyDescriptorFromMethodId(const DexFile* pDexFile,
     const DexMethodId* pMethodId)
 {
     DexProto proto;

     dexProtoSetFromMethodId(&proto, pDexFile, pMethodId);
     return dexProtoCopyMethodDescriptor(&proto);
 }

 /*
  * Get the type descriptor for the return type of the given prototype.
  */
 const char* dexProtoGetReturnType(const DexProto* pProto);

 /*
  * Get the parameter count of the given prototype.
  */
 size_t dexProtoGetParameterCount(const DexProto* pProto);

 /*
  * Compute the number of parameter words (u4 units) required by the
  * given prototype. For example, if the method takes (int, long) and
  * returns double, this would return 3 (one for the int, two for the
  * long, and the return type isn't relevant).
  */
 int dexProtoComputeArgsSize(const DexProto* pProto);

 /*
  * Compare the two prototypes. The two prototypes are compared
  * with the return type as the major order, then the first arguments,
  * then second, etc. If two prototypes are identical except that one
  * has extra arguments, then the shorter argument is considered the
  * earlier one in sort order (similar to strcmp()).
  */
 int dexProtoCompare(const DexProto* pProto1, const DexProto* pProto2);

 /*
  * Compare the two prototypes. The two prototypes are compared
  * with the first argument as the major order, then second, etc. If two
  * prototypes are identical except that one has extra arguments, then the
  * shorter argument is considered the earlier one in sort order (similar
  * to strcmp()).
  */
 int dexProtoCompareParameters(const DexProto* pProto1, const DexProto* pProto2);

 /*
  * Compare a prototype and a string method descriptor. The comparison
  * is done as if the descriptor were converted to a prototype and compared
  * with dexProtoCompare().
  */
 int dexProtoCompareToDescriptor(const DexProto* proto, const char* descriptor);

 /*
  * Single-thread prototype parameter iterator. This structure holds a
  * pointer to a prototype and its parts, along with a cursor.
  */
 typedef struct DexParameterIterator {
     const DexProto* proto;
     const DexTypeList* parameters;
     int parameterCount;
     int cursor;
 } DexParameterIterator;

 /*
  * Initialize the given DexParameterIterator to be at the start of the
  * parameters of the given prototype.
  */
 void dexParameterIteratorInit(DexParameterIterator* pIterator,
         const DexProto* pProto);

 /*
  * Get the type_id index for the next parameter, if any. This returns
  * kDexNoIndex if the last parameter has already been consumed.
  */
 u4 dexParameterIteratorNextIndex(DexParameterIterator* pIterator);

 /*
  * Get the type descriptor for the next parameter, if any. This returns
  * NULL if the last parameter has already been consumed.
  */
 const char* dexParameterIteratorNextDescriptor(
         DexParameterIterator* pIterator);


 #endif /*_LIBDEX_DEXPROTO*/
	/*
	* Copyright (C) 2008 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	/*
	* Functions for dealing with method prototypes
	*/

	#ifndef _LIBDEX_DEXPROTO
	#define _LIBDEX_DEXPROTO

	#include "DexFile.h"

	/*
	* Single-thread single-string cache. This structure holds a pointer to
	* a string which is semi-automatically manipulated by some of the
	* method prototype functions. Functions which use in this struct
	* generally return a string that is valid until the next
	* time the same DexStringCache is used.
	*/
	typedef struct DexStringCache {
	char* value; /* the latest value */
	size_t allocatedSize; /* size of the allocated buffer, if allocated */
	char buffer[120]; /* buffer used to hold small-enough results */
	} DexStringCache;

	/*
	* Initialize the given DexStringCache. Use this function before passing
	* one into any other function.
	*/
	void dexStringCacheInit(DexStringCache* pCache);

	/*
	* Release the allocated contents of the given DexStringCache, if any.
	* Use this function after your last use of a DexStringCache.
	*/
	void dexStringCacheRelease(DexStringCache* pCache);

	/*
	* If the given DexStringCache doesn't already point at the given value,
	* make a copy of it into the cache. This always returns a writable
	* pointer to the contents (whether or not a copy had to be made). This
	* function is intended to be used after making a call that at least
	* sometimes doesn't populate a DexStringCache.
	*/
	char* dexStringCacheEnsureCopy(DexStringCache* pCache, const char* value);

	/*
	* Abandon the given DexStringCache, and return a writable copy of the
	* given value (reusing the string cache's allocation if possible).
	* The return value must be free()d by the caller. Use this instead of
	* dexStringCacheRelease() if you want the buffer to survive past the
	* scope of the DexStringCache.
	*/
	char* dexStringCacheAbandon(DexStringCache* pCache, const char* value);

	/*
	* Method prototype structure, which refers to a protoIdx in a
	* particular DexFile.
	*/
	typedef struct DexProto {
	const DexFile* dexFile; /* file the idx refers to */
	u4 protoIdx; /* index into proto_ids table of dexFile */
	} DexProto;

	/*
	* Set the given DexProto to refer to the prototype of the given MethodId.
	*/
	DEX_INLINE void dexProtoSetFromMethodId(DexProto* pProto,
	const DexFile* pDexFile, const DexMethodId* pMethodId)
	{
	pProto->dexFile = pDexFile;
	pProto->protoIdx = pMethodId->protoIdx;
	}

	/*
	* Get the short-form method descriptor for the given prototype. The
	* prototype must be protoIdx-based.
	*/
	const char* dexProtoGetShorty(const DexProto* pProto);

	/*
	* Get the full method descriptor for the given prototype.
	*/
	const char* dexProtoGetMethodDescriptor(const DexProto* pProto,
	DexStringCache* pCache);

	/*
	* Get a copy of the descriptor string associated with the given prototype.
	* The returned pointer must be free()ed by the caller.
	*/
	char* dexProtoCopyMethodDescriptor(const DexProto* pProto);

	/*
	* Get the parameter descriptors for the given prototype. This is the
	* concatenation of all the descriptors for all the parameters, in
	* order, with no other adornment.
	*/
	const char* dexProtoGetParameterDescriptors(const DexProto* pProto,
	DexStringCache* pCache);

	/*
	* Return the utf-8 encoded descriptor string from the proto of a MethodId.
	*/
	DEX_INLINE const char* dexGetDescriptorFromMethodId(const DexFile* pDexFile,
	const DexMethodId* pMethodId, DexStringCache* pCache)
	{
	DexProto proto;

	dexProtoSetFromMethodId(&proto, pDexFile, pMethodId);
	return dexProtoGetMethodDescriptor(&proto, pCache);
	}

	/*
	* Get a copy of the utf-8 encoded method descriptor string from the
	* proto of a MethodId. The returned pointer must be free()ed by the
	* caller.
	*/
	DEX_INLINE char* dexCopyDescriptorFromMethodId(const DexFile* pDexFile,
	const DexMethodId* pMethodId)
	{
	DexProto proto;

	dexProtoSetFromMethodId(&proto, pDexFile, pMethodId);
	return dexProtoCopyMethodDescriptor(&proto);
	}

	/*
	* Get the type descriptor for the return type of the given prototype.
	*/
	const char* dexProtoGetReturnType(const DexProto* pProto);

	/*
	* Get the parameter count of the given prototype.
	*/
	size_t dexProtoGetParameterCount(const DexProto* pProto);

	/*
	* Compute the number of parameter words (u4 units) required by the
	* given prototype. For example, if the method takes (int, long) and
	* returns double, this would return 3 (one for the int, two for the
	* long, and the return type isn't relevant).
	*/
	int dexProtoComputeArgsSize(const DexProto* pProto);

	/*
	* Compare the two prototypes. The two prototypes are compared
	* with the return type as the major order, then the first arguments,
	* then second, etc. If two prototypes are identical except that one
	* has extra arguments, then the shorter argument is considered the
	* earlier one in sort order (similar to strcmp()).
	*/
	int dexProtoCompare(const DexProto* pProto1, const DexProto* pProto2);

	/*
	* Compare the two prototypes. The two prototypes are compared
	* with the first argument as the major order, then second, etc. If two
	* prototypes are identical except that one has extra arguments, then the
	* shorter argument is considered the earlier one in sort order (similar
	* to strcmp()).
	*/
	int dexProtoCompareParameters(const DexProto* pProto1, const DexProto* pProto2);

	/*
	* Compare a prototype and a string method descriptor. The comparison
	* is done as if the descriptor were converted to a prototype and compared
	* with dexProtoCompare().
	*/
	int dexProtoCompareToDescriptor(const DexProto* proto, const char* descriptor);

	/*
	* Single-thread prototype parameter iterator. This structure holds a
	* pointer to a prototype and its parts, along with a cursor.
	*/
	typedef struct DexParameterIterator {
	const DexProto* proto;
	const DexTypeList* parameters;
	int parameterCount;
	int cursor;
	} DexParameterIterator;

	/*
	* Initialize the given DexParameterIterator to be at the start of the
	* parameters of the given prototype.
	*/
	void dexParameterIteratorInit(DexParameterIterator* pIterator,
	const DexProto* pProto);

	/*
	* Get the type_id index for the next parameter, if any. This returns
	* kDexNoIndex if the last parameter has already been consumed.
	*/
	u4 dexParameterIteratorNextIndex(DexParameterIterator* pIterator);

	/*
	* Get the type descriptor for the next parameter, if any. This returns
	* NULL if the last parameter has already been consumed.
	*/
	const char* dexParameterIteratorNextDescriptor(
	DexParameterIterator* pIterator);



	#endif /_LIBDEX_DEXPROTO/