[lttv.git] / tags / lttv-0.11.3-23102008 / lttv / lttv / filter.h

/* This file is part of the Linux Trace Toolkit viewer
 * Copyright (C) 2003-2005 Michel Dagenais and Simon Bouvier-Zappa
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License Version 2 as
 * published by the Free Software Foundation;
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place - Suite 330, Boston, 
 * MA 02111-1307, USA.
 */

#ifndef FILTER_H
#define FILTER_H

/*! \file lttv/lttv/filter.h
 *  \brief Defines the core filter of application 
 *
 *  A filter expression consists in nested AND, OR and NOT expressions
 *  involving boolean relation (>, >=, =, !=, <, <=) between event fields and 
 *  specific values. It is compiled into an efficient data structure which
 *  is used in functions to check if a given event or tracefile satisfies the
 *  filter.
 * 
 *  The grammar for filters is:
 * 
 *  filter = expression
 * 
 *  expression = "(" expression ")" | "!" expression | 
 *              expression "&&" expression | expression "||" expression |
 *              simpleExpression
 *
 *  simpleExpression = fieldPath op value
 *
 *  fieldPath = fieldComponent [ "." fieldPath ]
 *
 *  fieldComponent = name [ "[" integer "]" ]
 *
 *  value = integer | double | string 
 */


#include <lttv/traceset.h>
#include <lttv/tracecontext.h>
#include <lttv/state.h>
#include <lttv/module.h>
#include <ltt/ltt.h>
#include <ltt/time.h>
#include <ltt/event.h>

/* structures prototypes */
typedef enum _LttvStructType LttvStructType; 
typedef enum _LttvFieldType LttvFieldType; 
typedef enum _LttvExpressionOp LttvExpressionOp;
typedef enum _LttvTreeElement LttvTreeElement;
typedef enum _LttvLogicalOp LttvLogicalOp;

typedef union _LttvFieldValue LttvFieldValue;

typedef struct _LttvSimpleExpression LttvSimpleExpression;
typedef struct _LttvFilterTree LttvFilterTree;

#ifndef LTTVFILTER_TYPE_DEFINED
typedef struct _LttvFilter LttvFilter;
#define LTTVFILTER_TYPE_DEFINED
#endif

/**
 * @enum _LttvStructType
 * @brief The lttv structures
 *
 * the LttvStructType enumerates 
 * the possible structures for the 
 * lttv core filter
 */
enum _LttvStructType {
  LTTV_FILTER_TRACE,                /**< trace (LttTrace) */
  LTTV_FILTER_TRACESET,             /**< traceset */
  LTTV_FILTER_TRACEFILE,            /**< tracefile (LttTracefile) */
  LTTV_FILTER_EVENT,                /**< event (LttEvent) */
  LTTV_FILTER_STATE                 /**< state (LttvProcessState) */
};

/**
 * @enum _LttvFieldType
 * @brief Possible fields for the structures
 *
 * the LttvFieldType enum consists on 
 * all the hardcoded structures and 
 * their appropriate fields on which 
 * filters can be applied.
 */
enum _LttvFieldType {
  LTTV_FILTER_TRACE_NAME,             /**< trace.name (char*) */
  LTTV_FILTER_TRACEFILE_NAME,         /**< tracefile.name (char*) */
  LTTV_FILTER_STATE_PID,              /**< state.pid (guint) */
  LTTV_FILTER_STATE_PPID,             /**< state.ppid (guint) */
  LTTV_FILTER_STATE_CT,               /**< state.creation_time (double) */
  LTTV_FILTER_STATE_IT,               /**< state.insertion_time (double) */
  LTTV_FILTER_STATE_P_NAME,           /**< state.process_name (char*) */
  LTTV_FILTER_STATE_T_BRAND,          /**< state.thread_brand (char*) */
  LTTV_FILTER_STATE_EX_MODE,          /**< state.execution_mode (LttvExecutionMode) */
  LTTV_FILTER_STATE_EX_SUBMODE,       /**< state.execution_submode (LttvExecutionSubmode) */
  LTTV_FILTER_STATE_P_STATUS,         /**< state.process_status (LttvProcessStatus) */
  LTTV_FILTER_STATE_CPU,              /**< state.cpu (?last_cpu?) */
  LTTV_FILTER_EVENT_NAME,             /**< event.name (char*) */
  LTTV_FILTER_EVENT_CATEGORY,         /**< FIXME: not implemented */
  LTTV_FILTER_EVENT_TIME,             /**< event.time (double) */
  LTTV_FILTER_EVENT_TSC,              /**< event.tsc (double) */
  LTTV_FILTER_EVENT_TARGET_PID,       /**< event.target_pid (guint) */
  LTTV_FILTER_EVENT_FIELD,            /**< dynamic field, specified in facility */
  LTTV_FILTER_UNDEFINED               /**< undefined field */
};
  
/**
 *   @enum _LttvExpressionOp
 *  @brief Contains possible operators
 *
 *  This enumeration defines the 
 *  possible operator used to compare 
 *  right and left member in simple 
 *  expression
 */
enum _LttvExpressionOp
{ 
  LTTV_FIELD_EQ,                      /**< equal */
  LTTV_FIELD_NE,                      /**< not equal */
  LTTV_FIELD_LT,                      /**< lower than */
  LTTV_FIELD_LE,                      /**< lower or equal */
  LTTV_FIELD_GT,                      /**< greater than */
  LTTV_FIELD_GE                        /**< greater or equal */
};

/**
 *  @union _LttvFieldValue
 *  @brief Contains possible field values
 *
 *  This particular union defines the 
 *  possible set of values taken by the 
 *  right member of a simple expression.  
 *  It is used for comparison whithin the 
 *  'operators' functions
 */
union _LttvFieldValue {
  GQuark  v_quark;                    /**< GQuark */
  guint64 v_uint64;                   /**< unsigned int of 64 bytes */
  guint32 v_uint32;                   /**< unsigned int of 32 bytes */
  guint16 v_uint16;                   /**< unsigned int of 16 bytes */
  guint16 v_uint;                     /**< unsigned int */
  double v_double;                    /**< double */
  char* v_string;                     /**< string */
  LttTime v_ltttime;                  /**< LttTime */
};

/**
 * @enum _LttvTreeElement
 * @brief element types for the tree nodes
 *
 * LttvTreeElement defines the possible 
 * types of nodes which build the LttvFilterTree.  
 */
enum _LttvTreeElement {
  LTTV_TREE_IDLE,                     /**< this node does nothing */
  LTTV_TREE_NODE,                     /**< this node contains a logical operator */
  LTTV_TREE_LEAF                      /**< this node is a leaf and contains a simple expression */
};


/**
 * @struct _LttvSimpleExpression
 * @brief simple expression structure
 *
 * An LttvSimpleExpression is the base 
 * of all filtering operations.  It also 
 * populates the leaves of the
 * LttvFilterTree.  Each expression 
 * consists basically in a structure 
 * field, an operator and a specific 
 * value.
 */
struct _LttvSimpleExpression
{ 
  gint field;                               /**< left member of simple expression */                  
  gint offset;                              /**< offset used for dynamic fields */
  gboolean (*op)(gpointer,LttvFieldValue);  /**< operator of simple expression */
  LttvFieldValue value;                     /**< right member of simple expression */
};

/**
 * @enum _LttvLogicalOp
 * @brief logical operators
 * 
 * Contains the possible values taken 
 * by logical operator used to link 
 * simple expression.  Values are 
 * AND, OR, XOR or NOT
 */
enum _LttvLogicalOp {
    LTTV_LOGICAL_OR = 1,              /**< OR (1) */
    LTTV_LOGICAL_AND = 1<<1,          /**< AND (2) */
    LTTV_LOGICAL_NOT = 1<<2,          /**< NOT (4) */
    LTTV_LOGICAL_XOR = 1<<3           /**< XOR (8) */
};
    
/**
 *  @struct _LttvFilterTree
 *  @brief The filtering tree
 *  
 *  The filtering tree is used to represent the 
 *  expression string in its entire hierarchy 
 *  composed of simple expressions and logical 
 *  operators
 */
struct _LttvFilterTree {
  int node;                         /**< value of LttvLogicalOp */
  LttvTreeElement left;             /**< nature of left branch (node/leaf) */
  LttvTreeElement right;            /**< nature of right branch (node/leaf) */
  union {
    LttvFilterTree* t;              
    LttvSimpleExpression* leaf;     
  } l_child;                        /**< left branch of tree */
  union {
    LttvFilterTree* t;              
    LttvSimpleExpression* leaf;     
  } r_child;                        /**< right branch of tree */
};

/**
 * @struct _LttvFilter
 * @brief The filter
 * 
 * Contains a binary tree of filtering options along 
 * with the expression itself.
 */
struct _LttvFilter {
  char *expression;                 /**< filtering expression string */
  LttvFilterTree *head;             /**< tree associated to expression */
};

/*
 * Simple Expression
 */
LttvSimpleExpression* lttv_simple_expression_new();

gboolean lttv_simple_expression_assign_field(GPtrArray* fp, LttvSimpleExpression* se);

gboolean lttv_simple_expression_assign_operator(LttvSimpleExpression* se, LttvExpressionOp op);

gboolean lttv_simple_expression_assign_value(LttvSimpleExpression* se, char* value);

void lttv_simple_expression_destroy(LttvSimpleExpression* se);


/*
 * Logical operators functions
 */

gboolean lttv_apply_op_eq_uint(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_eq_uint64(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_eq_uint32(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_eq_uint16(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_eq_double(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_eq_string(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_eq_quark(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_eq_ltttime(const gpointer v1, LttvFieldValue v2);

gboolean lttv_apply_op_ne_uint(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_ne_uint64(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_ne_uint32(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_ne_uint16(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_ne_double(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_ne_string(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_ne_quark(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_ne_ltttime(const gpointer v1, LttvFieldValue v2);

gboolean lttv_apply_op_lt_uint(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_lt_uint64(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_lt_uint32(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_lt_uint16(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_lt_double(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_lt_ltttime(const gpointer v1, LttvFieldValue v2);

gboolean lttv_apply_op_le_uint(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_le_uint64(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_le_uint32(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_le_uint16(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_le_double(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_le_ltttime(const gpointer v1, LttvFieldValue v2);

gboolean lttv_apply_op_gt_uint(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_gt_uint64(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_gt_uint32(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_gt_uint16(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_gt_double(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_gt_ltttime(const gpointer v1, LttvFieldValue v2);

gboolean lttv_apply_op_ge_uint(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_ge_uint64(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_ge_uint32(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_ge_uint16(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_ge_double(const gpointer v1, LttvFieldValue v2);
gboolean lttv_apply_op_ge_ltttime(const gpointer v1, LttvFieldValue v2);

/*
 * Cloning
 */

LttvFilterTree* lttv_filter_tree_clone(const LttvFilterTree* tree);

LttvFilter* lttv_filter_clone(const LttvFilter* filter);

/* 
 * LttvFilter 
 */
LttvFilter *lttv_filter_new();

gboolean lttv_filter_update(LttvFilter* filter);

void lttv_filter_destroy(LttvFilter* filter);

gboolean lttv_filter_append_expression(LttvFilter* filter, const char *expression);

void lttv_filter_clear_expression(LttvFilter* filter);

/*
 * LttvFilterTree 
 */
LttvFilterTree* lttv_filter_tree_new();

void lttv_filter_tree_destroy(LttvFilterTree* tree);

gboolean lttv_filter_tree_parse(
        const LttvFilterTree* t,
        const LttEvent* event,
        const LttTracefile* tracefile,
        const LttTrace* trace,
        const LttvTracefileContext* context,
	const LttvProcessState* pstate,
	const LttvTraceContext* tc);

gboolean lttv_filter_tree_parse_branch(
        const LttvSimpleExpression* se,
        const LttEvent* event,
        const LttTracefile* tracefile,
        const LttTrace* trace,
        const LttvProcessState* state,
        const LttvTracefileContext* context);

/*
 *  Debug functions
 */
void lttv_print_tree(const LttvFilterTree* t, const int count);

#endif // FILTER_H
Commit	Line	Data
13ab9fcb	1	/* This file is part of the Linux Trace Toolkit viewer
	2	* Copyright (C) 2003-2005 Michel Dagenais and Simon Bouvier-Zappa
	3	*
	4	* This program is free software; you can redistribute it and/or modify
	5	* it under the terms of the GNU General Public License Version 2 as
	6	* published by the Free Software Foundation;
	7	*
	8	* This program is distributed in the hope that it will be useful,
	9	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	10	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	11	* GNU General Public License for more details.
	12	*
	13	* You should have received a copy of the GNU General Public License
	14	* along with this program; if not, write to the Free Software
	15	* Foundation, Inc., 59 Temple Place - Suite 330, Boston,
	16	* MA 02111-1307, USA.
	17	*/
	18
	19	#ifndef FILTER_H
	20	#define FILTER_H
	21
	22	/*! \file lttv/lttv/filter.h
	23	* \brief Defines the core filter of application
	24	*
	25	* A filter expression consists in nested AND, OR and NOT expressions
	26	* involving boolean relation (>, >=, =, !=, <, <=) between event fields and
	27	* specific values. It is compiled into an efficient data structure which
	28	* is used in functions to check if a given event or tracefile satisfies the
	29	* filter.
	30	*
	31	* The grammar for filters is:
	32	*
	33	* filter = expression
	34	*
	35	* expression = "(" expression ")" \| "!" expression \|
	36	* expression "&&" expression \| expression "\|\|" expression \|
	37	* simpleExpression
	38	*
	39	* simpleExpression = fieldPath op value
	40	*
	41	* fieldPath = fieldComponent [ "." fieldPath ]
	42	*
	43	* fieldComponent = name [ "[" integer "]" ]
	44	*
	45	* value = integer \| double \| string
	46	*/
	47
	48
	49	#include <lttv/traceset.h>
	50	#include <lttv/tracecontext.h>
	51	#include <lttv/state.h>
	52	#include <lttv/module.h>
	53	#include <ltt/ltt.h>
	54	#include <ltt/time.h>
	55	#include <ltt/event.h>
	56
	57	/* structures prototypes */
	58	typedef enum _LttvStructType LttvStructType;
	59	typedef enum _LttvFieldType LttvFieldType;
	60	typedef enum _LttvExpressionOp LttvExpressionOp;
	61	typedef enum _LttvTreeElement LttvTreeElement;
	62	typedef enum _LttvLogicalOp LttvLogicalOp;
	63
	64	typedef union _LttvFieldValue LttvFieldValue;
65
66	typedef struct _LttvSimpleExpression LttvSimpleExpression;
67	typedef struct _LttvFilterTree LttvFilterTree;
68
69	#ifndef LTTVFILTER_TYPE_DEFINED
70	typedef struct _LttvFilter LttvFilter;
71	#define LTTVFILTER_TYPE_DEFINED
72	#endif
73
74	/**
75	* @enum _LttvStructType
76	* @brief The lttv structures
77	*
78	* the LttvStructType enumerates
79	* the possible structures for the
80	* lttv core filter
81	*/
82	enum _LttvStructType {
83	LTTV_FILTER_TRACE, /*< trace (LttTrace) /
84	LTTV_FILTER_TRACESET, /*< traceset /
85	LTTV_FILTER_TRACEFILE, /*< tracefile (LttTracefile) /
86	LTTV_FILTER_EVENT, /*< event (LttEvent) /
87	LTTV_FILTER_STATE /*< state (LttvProcessState) /
88	};
89
90	/**
91	* @enum _LttvFieldType
92	* @brief Possible fields for the structures
93	*
94	* the LttvFieldType enum consists on
95	* all the hardcoded structures and
96	* their appropriate fields on which
97	* filters can be applied.
98	*/
99	enum _LttvFieldType {
100	LTTV_FILTER_TRACE_NAME, /*< trace.name (char) */
101	LTTV_FILTER_TRACEFILE_NAME, /*< tracefile.name (char) */
102	LTTV_FILTER_STATE_PID, /*< state.pid (guint) /
103	LTTV_FILTER_STATE_PPID, /*< state.ppid (guint) /
104	LTTV_FILTER_STATE_CT, /*< state.creation_time (double) /
105	LTTV_FILTER_STATE_IT, /*< state.insertion_time (double) /
106	LTTV_FILTER_STATE_P_NAME, /*< state.process_name (char) */
107	LTTV_FILTER_STATE_T_BRAND, /*< state.thread_brand (char) */
108	LTTV_FILTER_STATE_EX_MODE, /*< state.execution_mode (LttvExecutionMode) /
109	LTTV_FILTER_STATE_EX_SUBMODE, /*< state.execution_submode (LttvExecutionSubmode) /
110	LTTV_FILTER_STATE_P_STATUS, /*< state.process_status (LttvProcessStatus) /
111	LTTV_FILTER_STATE_CPU, /*< state.cpu (?last_cpu?) /
112	LTTV_FILTER_EVENT_NAME, /*< event.name (char) */
113	LTTV_FILTER_EVENT_CATEGORY, /*< FIXME: not implemented /
114	LTTV_FILTER_EVENT_TIME, /*< event.time (double) /
115	LTTV_FILTER_EVENT_TSC, /*< event.tsc (double) /
116	LTTV_FILTER_EVENT_TARGET_PID, /*< event.target_pid (guint) /
117	LTTV_FILTER_EVENT_FIELD, /*< dynamic field, specified in facility /
118	LTTV_FILTER_UNDEFINED /*< undefined field /
119	};
120
121	/**
122	* @enum _LttvExpressionOp
123	* @brief Contains possible operators
124	*
125	* This enumeration defines the
126	* possible operator used to compare
127	* right and left member in simple
128	* expression
129	*/
130	enum _LttvExpressionOp
131	{
132	LTTV_FIELD_EQ, /*< equal /
133	LTTV_FIELD_NE, /*< not equal /
134	LTTV_FIELD_LT, /*< lower than /
135	LTTV_FIELD_LE, /*< lower or equal /
136	LTTV_FIELD_GT, /*< greater than /
137	LTTV_FIELD_GE /*< greater or equal /
138	};
139
140	/**
141	* @union _LttvFieldValue
142	* @brief Contains possible field values
143	*
144	* This particular union defines the
145	* possible set of values taken by the
146	* right member of a simple expression.
147	* It is used for comparison whithin the
148	* 'operators' functions
149	*/
150	union _LttvFieldValue {
151	GQuark v_quark; /*< GQuark /
152	guint64 v_uint64; /*< unsigned int of 64 bytes /
153	guint32 v_uint32; /*< unsigned int of 32 bytes /
154	guint16 v_uint16; /*< unsigned int of 16 bytes /
155	guint16 v_uint; /*< unsigned int /
156	double v_double; /*< double /
157	char* v_string; /*< string /
158	LttTime v_ltttime; /*< LttTime /
159	};
160
161	/**
162	* @enum _LttvTreeElement
163	* @brief element types for the tree nodes
164	*
165	* LttvTreeElement defines the possible
166	* types of nodes which build the LttvFilterTree.
167	*/
168	enum _LttvTreeElement {
169	LTTV_TREE_IDLE, /*< this node does nothing /
170	LTTV_TREE_NODE, /*< this node contains a logical operator /
171	LTTV_TREE_LEAF /*< this node is a leaf and contains a simple expression /
172	};
173
174
175	/**
176	* @struct _LttvSimpleExpression
177	* @brief simple expression structure
178	*
179	* An LttvSimpleExpression is the base
180	* of all filtering operations. It also
181	* populates the leaves of the
182	* LttvFilterTree. Each expression
183	* consists basically in a structure
184	* field, an operator and a specific
185	* value.
186	*/
187	struct _LttvSimpleExpression
188	{
189	gint field; /*< left member of simple expression /
190	gint offset; /*< offset used for dynamic fields /
191	gboolean (op)(gpointer,LttvFieldValue); /< operator of simple expression /
192	LttvFieldValue value; /*< right member of simple expression /
193	};
194
195	/**
196	* @enum _LttvLogicalOp
197	* @brief logical operators
198	*
199	* Contains the possible values taken
200	* by logical operator used to link
201	* simple expression. Values are
202	* AND, OR, XOR or NOT
203	*/
204	enum _LttvLogicalOp {
205	LTTV_LOGICAL_OR = 1, /*< OR (1) /
206	LTTV_LOGICAL_AND = 1<<1, /*< AND (2) /
207	LTTV_LOGICAL_NOT = 1<<2, /*< NOT (4) /
208	LTTV_LOGICAL_XOR = 1<<3 /*< XOR (8) /
209	};
210
211	/**
212	* @struct _LttvFilterTree
213	* @brief The filtering tree
214	*
215	* The filtering tree is used to represent the
216	* expression string in its entire hierarchy
217	* composed of simple expressions and logical
218	* operators
219	*/
220	struct _LttvFilterTree {
221	int node; /*< value of LttvLogicalOp /
222	LttvTreeElement left; /*< nature of left branch (node/leaf) /
223	LttvTreeElement right; /*< nature of right branch (node/leaf) /
224	union {
225	LttvFilterTree* t;
226	LttvSimpleExpression* leaf;
227	} l_child; /*< left branch of tree /
228	union {
229	LttvFilterTree* t;
230	LttvSimpleExpression* leaf;
231	} r_child; /*< right branch of tree /
232	};
233
234	/**
235	* @struct _LttvFilter
236	* @brief The filter
237	*
238	* Contains a binary tree of filtering options along
239	* with the expression itself.
240	*/
241	struct _LttvFilter {
242	char expression; /< filtering expression string /
243	LttvFilterTree head; /< tree associated to expression /
244	};
245
246	/*
247	* Simple Expression
248	*/
249	LttvSimpleExpression* lttv_simple_expression_new();
250
251	gboolean lttv_simple_expression_assign_field(GPtrArray* fp, LttvSimpleExpression* se);
252
253	gboolean lttv_simple_expression_assign_operator(LttvSimpleExpression* se, LttvExpressionOp op);
254
255	gboolean lttv_simple_expression_assign_value(LttvSimpleExpression* se, char* value);
256
257	void lttv_simple_expression_destroy(LttvSimpleExpression* se);
258
259
260	/*
261	* Logical operators functions
262	*/
263
264	gboolean lttv_apply_op_eq_uint(const gpointer v1, LttvFieldValue v2);
265	gboolean lttv_apply_op_eq_uint64(const gpointer v1, LttvFieldValue v2);
266	gboolean lttv_apply_op_eq_uint32(const gpointer v1, LttvFieldValue v2);
267	gboolean lttv_apply_op_eq_uint16(const gpointer v1, LttvFieldValue v2);
268	gboolean lttv_apply_op_eq_double(const gpointer v1, LttvFieldValue v2);
269	gboolean lttv_apply_op_eq_string(const gpointer v1, LttvFieldValue v2);
270	gboolean lttv_apply_op_eq_quark(const gpointer v1, LttvFieldValue v2);
271	gboolean lttv_apply_op_eq_ltttime(const gpointer v1, LttvFieldValue v2);
272
273	gboolean lttv_apply_op_ne_uint(const gpointer v1, LttvFieldValue v2);
274	gboolean lttv_apply_op_ne_uint64(const gpointer v1, LttvFieldValue v2);
275	gboolean lttv_apply_op_ne_uint32(const gpointer v1, LttvFieldValue v2);
276	gboolean lttv_apply_op_ne_uint16(const gpointer v1, LttvFieldValue v2);
277	gboolean lttv_apply_op_ne_double(const gpointer v1, LttvFieldValue v2);
278	gboolean lttv_apply_op_ne_string(const gpointer v1, LttvFieldValue v2);
279	gboolean lttv_apply_op_ne_quark(const gpointer v1, LttvFieldValue v2);
280	gboolean lttv_apply_op_ne_ltttime(const gpointer v1, LttvFieldValue v2);
281
282	gboolean lttv_apply_op_lt_uint(const gpointer v1, LttvFieldValue v2);
283	gboolean lttv_apply_op_lt_uint64(const gpointer v1, LttvFieldValue v2);
284	gboolean lttv_apply_op_lt_uint32(const gpointer v1, LttvFieldValue v2);
285	gboolean lttv_apply_op_lt_uint16(const gpointer v1, LttvFieldValue v2);
286	gboolean lttv_apply_op_lt_double(const gpointer v1, LttvFieldValue v2);
287	gboolean lttv_apply_op_lt_ltttime(const gpointer v1, LttvFieldValue v2);
288
289	gboolean lttv_apply_op_le_uint(const gpointer v1, LttvFieldValue v2);
290	gboolean lttv_apply_op_le_uint64(const gpointer v1, LttvFieldValue v2);
291	gboolean lttv_apply_op_le_uint32(const gpointer v1, LttvFieldValue v2);
292	gboolean lttv_apply_op_le_uint16(const gpointer v1, LttvFieldValue v2);
293	gboolean lttv_apply_op_le_double(const gpointer v1, LttvFieldValue v2);
294	gboolean lttv_apply_op_le_ltttime(const gpointer v1, LttvFieldValue v2);
295
296	gboolean lttv_apply_op_gt_uint(const gpointer v1, LttvFieldValue v2);
297	gboolean lttv_apply_op_gt_uint64(const gpointer v1, LttvFieldValue v2);
298	gboolean lttv_apply_op_gt_uint32(const gpointer v1, LttvFieldValue v2);
299	gboolean lttv_apply_op_gt_uint16(const gpointer v1, LttvFieldValue v2);
300	gboolean lttv_apply_op_gt_double(const gpointer v1, LttvFieldValue v2);
301	gboolean lttv_apply_op_gt_ltttime(const gpointer v1, LttvFieldValue v2);
302
303	gboolean lttv_apply_op_ge_uint(const gpointer v1, LttvFieldValue v2);
304	gboolean lttv_apply_op_ge_uint64(const gpointer v1, LttvFieldValue v2);
305	gboolean lttv_apply_op_ge_uint32(const gpointer v1, LttvFieldValue v2);
306	gboolean lttv_apply_op_ge_uint16(const gpointer v1, LttvFieldValue v2);
307	gboolean lttv_apply_op_ge_double(const gpointer v1, LttvFieldValue v2);
308	gboolean lttv_apply_op_ge_ltttime(const gpointer v1, LttvFieldValue v2);
309
310	/*
311	* Cloning
312	*/
313
314	LttvFilterTree* lttv_filter_tree_clone(const LttvFilterTree* tree);
315
316	LttvFilter* lttv_filter_clone(const LttvFilter* filter);
317
318	/*
319	* LttvFilter
320	*/
321	LttvFilter *lttv_filter_new();
322
323	gboolean lttv_filter_update(LttvFilter* filter);
324
325	void lttv_filter_destroy(LttvFilter* filter);
326
327	gboolean lttv_filter_append_expression(LttvFilter* filter, const char *expression);
328
329	void lttv_filter_clear_expression(LttvFilter* filter);
330
331	/*
332	* LttvFilterTree
333	*/
334	LttvFilterTree* lttv_filter_tree_new();
335
336	void lttv_filter_tree_destroy(LttvFilterTree* tree);
337
338	gboolean lttv_filter_tree_parse(
339	const LttvFilterTree* t,
340	const LttEvent* event,
341	const LttTracefile* tracefile,
342	const LttTrace* trace,
343	const LttvTracefileContext* context,
344	const LttvProcessState* pstate,
345	const LttvTraceContext* tc);
346
347	gboolean lttv_filter_tree_parse_branch(
348	const LttvSimpleExpression* se,
349	const LttEvent* event,
350	const LttTracefile* tracefile,
351	const LttTrace* trace,
352	const LttvProcessState* state,
353	const LttvTracefileContext* context);
354
355	/*
356	* Debug functions
357	*/
358	void lttv_print_tree(const LttvFilterTree* t, const int count);
359
360	#endif // FILTER_H
361