/* This file is part of the Linux Trace Toolkit viewer
- * Copyright (C) 2003-2005 Michel Dagenais
+ * 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
* MA 02111-1307, USA.
*/
-/*
- read_token
-
- read_expression
- ( read expr )
- simple expr [ op expr ]
-
- read_simple_expression
- read_field_path [ rel value ]
-
- read_field_path
- read_field_component [. field path]
-
- read_field_component
- name [ \[ value \] ]
-
- data struct:
- and/or(left/right)
- not(child)
- op(left/right)
- path(component...) -> field
-
- consist in AND, OR and NOT nested expressions, forming a tree with
- simple relations as leaves. The simple relations test is a field
- in an event is equal, not equal, smaller, smaller or equal, larger, or
- larger or equal to a specified value.
-*/
-
-/*
- * YET TO BE ANSWERED
- * - none yet
+/*! \file lttv/lttv/filter.c
+ * \brief Defines the core filter of application
+ *
+ * consist in AND, OR and NOT nested expressions, forming a tree with
+ * simple relations as leaves. The simple relations test if a field
+ * in an event is equal, not equal, smaller, smaller or equal, larger, or
+ * larger or equal to a specified value.
+ *
+ * Fields specified in a simple expression can take following
+ * values
+ *
+ * \verbatim
+ * LttvTracefileContext{}
+ * |->event\
+ * | |->name (String, converted to GQuark)
+ * | |->category (String, not yet implemented)
+ * | |->time (LttTime)
+ * | |->tsc (LttCycleCount --> uint64)
+ * | |->fields
+ * | |->"event name"
+ * | |->"field name"
+ * | |->"sub-field name"
+ * | |->...
+ * | |->"leaf-field name" (field type)
+ * |->tracefile
+ * | |->name (String, converted to GQuark)
+ * |->trace
+ * | |->name (String, converted to GQuark)
+ * |->state
+ * |->pid (uint64)
+ * |->ppid (uint64)
+ * |->creation_time (LttTime)
+ * |->insertion_time (LttTime)
+ * |->process_name (String, converted to GQuark)
+ * |->execution_mode (LttvExecutionMode)
+ * |->execution_submode (LttvExecutionSubmode)
+ * |->process_status (LttvProcessStatus)
+ * |->cpu (GQuark)
+ * \endverbatim
*/
/*
- * TODO
+ * \todo
* - refine switch of expression in multiple uses functions
- * - remove the idle expressions in the tree ****
- * - add the current simple expression to the tree
- * * clear the field_path array after use
+ * - remove the idle expressions in the tree
*/
-#include <lttv/filter.h>
-
-/*
-GQuark
- LTTV_FILTER_TRACE,
- LTTV_FILTER_TRACESET,
- LTTV_FILTER_TRACEFILE,
- LTTV_FILTER_STATE,
- LTTV_FILTER_EVENT,
- LTTV_FILTER_NAME,
- LTTV_FILTER_CATEGORY,
- LTTV_FILTER_TIME,
- LTTV_FILTER_TSC,
- LTTV_FILTER_PID,
- LTTV_FILTER_PPID,
- LTTV_FILTER_C_TIME,
- LTTV_FILTER_I_TIME,
- LTTV_FILTER_P_NAME,
- LTTV_FILTER_EX_MODE,
- LTTV_FILTER_EX_SUBMODE,
- LTTV_FILTER_P_STATUS,
- LTTV_FILTER_CPU;
-*/
+#ifdef HAVE_CONFIG_H
+#include <config.h>
+#endif
-/**
- * @fn void lttv_filter_tree_add_node(GPtrArray*,LttvFilterTree*,LttvLogicalOp)
- *
- * add a node to the current tree
- * FIXME: Might be used to lower coding in lttv_filter_new switch expression
- * @param stack the tree stack
- * @param subtree the subtree if available (pointer or NULL)
- * @param op the logical operator that will form the node
- */
-void
-lttv_filter_tree_add_node(GPtrArray* stack, LttvFilterTree* subtree, LttvLogicalOp op) {
-
- LttvFilterTree* t1 = NULL;
- LttvFilterTree* t2 = NULL;
-
- t1 = (LttvFilterTree*)g_ptr_array_index(stack,stack->len-1);
- while(t1->right != LTTV_TREE_IDLE) t1 = (LttvFilterTree*)t1->r_child.t;
- t2 = lttv_filter_tree_new();
- t2->node = op;
- if(subtree != NULL) {
- t2->left = LTTV_TREE_NODE;
- t2->l_child.t = subtree;
- subtree = NULL;
- t1->right = LTTV_TREE_NODE;
- t1->r_child.t = t2;
- } else {
-// a_simple_expression->value = a_field_component->str;
-// a_field_component = g_string_new("");
- t2->left = LTTV_TREE_LEAF;
-// t2->l_child.leaf = a_simple_expression;
-// a_simple_expression = g_new(lttv_simple_expression,1);
- t1->right = LTTV_TREE_NODE;
- t1->r_child.t = t2;
- }
-
-}
+//#define TEST
+#ifdef TEST
+#include <time.h>
+#include <sys/time.h>
+#endif
+#include <lttv/filter.h>
/**
* @fn LttvSimpleExpression* lttv_simple_expression_new()
se->field = LTTV_FILTER_UNDEFINED;
se->op = NULL;
se->offset = 0;
- se->value.v_uint64 = 0;
return se;
}
/**
- * @fn gboolean lttv_simple_expression_add_field(GPtrArray*,LttvSimpleExpression*)
+ * @fn gboolean lttv_simple_expression_assign_field(GPtrArray*,LttvSimpleExpression*)
*
* Parse through filtering field hierarchy as specified
* by user. This function compares each value to
/* array should be empty */
g_assert(fp->len == 0);
- g_print("field: %i\n",se->field);
if(se->field == LTTV_FILTER_UNDEFINED) {
g_warning("The specified field was not recognized !");
return FALSE;
* Sets the function pointer for the current
* Simple Expression
* @param se current simple expression
+ * @param op current operator
* @return success/failure of operation
*/
-gboolean lttv_simple_expression_assign_operator(LttvSimpleExpression* se, LttvExpressionOp op) {
+gboolean
+lttv_simple_expression_assign_operator(LttvSimpleExpression* se, LttvExpressionOp op) {
-// g_print("se->field = %i\n",se->field);
-// g_print("se->offset = %i\n",se->offset);
-// g_print("se->op = %p\n",se->op);
-// g_print("se->value = %s\n",se->value);
-
switch(se->field) {
/*
* string
case LTTV_FILTER_TRACEFILE_NAME:
case LTTV_FILTER_STATE_P_NAME:
case LTTV_FILTER_EVENT_NAME:
+ case LTTV_FILTER_STATE_CPU:
+ case LTTV_FILTER_STATE_EX_MODE:
+ case LTTV_FILTER_STATE_EX_SUBMODE:
+ case LTTV_FILTER_STATE_P_STATUS:
switch(op) {
case LTTV_FIELD_EQ:
- se->op = lttv_apply_op_eq_string;
+ se->op = lttv_apply_op_eq_quark;
break;
case LTTV_FIELD_NE:
- se->op = lttv_apply_op_ne_string;
+ se->op = lttv_apply_op_ne_quark;
break;
default:
g_warning("Error encountered in operator assignment = or != expected");
*/
case LTTV_FILTER_STATE_PID:
case LTTV_FILTER_STATE_PPID:
- case LTTV_FILTER_STATE_EX_MODE:
- case LTTV_FILTER_STATE_EX_SUBMODE:
- case LTTV_FILTER_STATE_P_STATUS:
+ case LTTV_FILTER_EVENT_TSC:
switch(op) {
case LTTV_FIELD_EQ:
se->op = lttv_apply_op_eq_uint64;
}
break;
/*
- * double
+ * Enums
+ * Entered as string, converted to enum
+ *
+ * can only be compared with 'equal' or 'not equal' operators
+ *
+ * unsigned int of 16 bits are used here since enums
+ * should not go over 2^16-1 values
+ */
+// case /*NOTHING*/:
+// switch(op) {
+// case LTTV_FIELD_EQ:
+// se->op = lttv_apply_op_eq_uint16;
+// break;
+// case LTTV_FIELD_NE:
+// se->op = lttv_apply_op_ne_uint16;
+// break;
+// default:
+// g_warning("Error encountered in operator assignment = or != expected");
+// return FALSE;
+// }
+// break;
+ /*
+ * Ltttime
*/
case LTTV_FILTER_STATE_CT:
case LTTV_FILTER_STATE_IT:
case LTTV_FILTER_EVENT_TIME:
- case LTTV_FILTER_EVENT_TSC:
switch(op) {
case LTTV_FIELD_EQ:
- se->op = lttv_apply_op_eq_double;
+ se->op = lttv_apply_op_eq_ltttime;
break;
case LTTV_FIELD_NE:
- se->op = lttv_apply_op_ne_double;
+ se->op = lttv_apply_op_ne_ltttime;
break;
case LTTV_FIELD_LT:
- se->op = lttv_apply_op_lt_double;
+ se->op = lttv_apply_op_lt_ltttime;
break;
case LTTV_FIELD_LE:
- se->op = lttv_apply_op_le_double;
+ se->op = lttv_apply_op_le_ltttime;
break;
case LTTV_FIELD_GT:
- se->op = lttv_apply_op_gt_double;
+ se->op = lttv_apply_op_gt_ltttime;
break;
case LTTV_FIELD_GE:
- se->op = lttv_apply_op_ge_double;
+ se->op = lttv_apply_op_ge_ltttime;
break;
default:
g_warning("Error encountered in operator assignment");
}
/**
- * @fn void lttv_simple_expression_assign_value(LttvSimpleExpression*,char*)
+ * @fn gboolean lttv_simple_expression_assign_value(LttvSimpleExpression*,char*)
*
* Assign the value field to the current LttvSimpleExpression
* @param se pointer to the current LttvSimpleExpression
* @param value string value for simple expression
*/
-gboolean lttv_simple_expression_assign_value(LttvSimpleExpression* se, char* value) {
-
- g_print("se->value:%s\n",value);
+gboolean
+lttv_simple_expression_assign_value(LttvSimpleExpression* se, char* value) {
+
+ unsigned i;
+ gboolean is_double = FALSE;
+ LttTime t = ltt_time_zero;
+ GString* v;
+ GQuark quark;
switch(se->field) {
/*
- * string
+ * Strings
+ * entered as strings, converted to Quarks
*/
case LTTV_FILTER_TRACE_NAME:
case LTTV_FILTER_TRACEFILE_NAME:
case LTTV_FILTER_STATE_P_NAME:
case LTTV_FILTER_EVENT_NAME:
- se->value.v_string = value;
+ case LTTV_FILTER_STATE_CPU:
+ case LTTV_FILTER_STATE_EX_MODE:
+ case LTTV_FILTER_STATE_EX_SUBMODE:
+ case LTTV_FILTER_STATE_P_STATUS:
+ // se->value.v_string = value;
+ se->value.v_uint32 = g_quark_from_string(value);
+ g_free(value);
break;
/*
- * integer
+ * integer -- supposed to be uint64
*/
case LTTV_FILTER_STATE_PID:
case LTTV_FILTER_STATE_PPID:
- case LTTV_FILTER_STATE_EX_MODE:
- case LTTV_FILTER_STATE_EX_SUBMODE:
- case LTTV_FILTER_STATE_P_STATUS:
+ case LTTV_FILTER_EVENT_TSC:
se->value.v_uint64 = atoi(value);
g_free(value);
break;
/*
- * double
+ * LttTime
*/
case LTTV_FILTER_STATE_CT:
case LTTV_FILTER_STATE_IT:
case LTTV_FILTER_EVENT_TIME:
- case LTTV_FILTER_EVENT_TSC:
- se->value.v_double = atof(value);
+ //se->value.v_double = atof(value);
+ /*
+ * parsing logic could be optimised,
+ * but as for now, simpler this way
+ */
+ v = g_string_new("");
+ for(i=0;i<strlen(value);i++) {
+ if(value[i] == '.') {
+ /* cannot specify number with more than one '.' */
+ if(is_double) return FALSE;
+ else is_double = TRUE;
+ t.tv_sec = atoi(v);
+ g_string_free(v,TRUE);
+ v = g_string_new("");
+ } else g_string_append_c(v,value[i]);
+ }
+ /* number can be integer or double */
+ if(is_double) t.tv_nsec = atoi(v);
+ else t.tv_sec = atoi(v);
+
+ g_string_free(v,TRUE);
+
+ se->value.v_ltttime = t;
g_free(value);
break;
default:
g_warning("Error encountered in value assignation ! Field type = %i",se->field);
+ g_free(value);
return FALSE;
}
lttv_simple_expression_destroy(LttvSimpleExpression* se) {
// g_free(se->value);
- switch(se->field) {
- case LTTV_FILTER_TRACE_NAME:
- case LTTV_FILTER_TRACEFILE_NAME:
- case LTTV_FILTER_STATE_P_NAME:
- case LTTV_FILTER_EVENT_NAME:
- g_free(se->value.v_string);
- break;
- }
+// switch(se->field) {
+// case LTTV_FILTER_TRACE_NAME:
+// case LTTV_FILTER_TRACEFILE_NAME:
+// case LTTV_FILTER_STATE_P_NAME:
+// case LTTV_FILTER_EVENT_NAME:
+// g_free(se->value.v_string);
+// break;
+// }
g_free(se);
}
* @param v2 right member of comparison
* @return success/failure of operation
*/
-gboolean lttv_apply_op_eq_uint64(gpointer v1, LttvFieldValue v2) {
+gboolean lttv_apply_op_eq_uint64(const gpointer v1, LttvFieldValue v2) {
guint64* r = (guint64*) v1;
return (*r == v2.v_uint64);
* @param v2 right member of comparison
* @return success/failure of operation
*/
-gboolean lttv_apply_op_eq_uint32(gpointer v1, LttvFieldValue v2) {
+gboolean lttv_apply_op_eq_uint32(const gpointer v1, LttvFieldValue v2) {
guint32* r = (guint32*) v1;
return (*r == v2.v_uint32);
}
* @param v2 right member of comparison
* @return success/failure of operation
*/
-gboolean lttv_apply_op_eq_uint16(gpointer v1, LttvFieldValue v2) {
+gboolean lttv_apply_op_eq_uint16(const gpointer v1, LttvFieldValue v2) {
guint16* r = (guint16*) v1;
return (*r == v2.v_uint16);
}
* @param v2 right member of comparison
* @return success/failure of operation
*/
-gboolean lttv_apply_op_eq_double(gpointer v1, LttvFieldValue v2) {
+gboolean lttv_apply_op_eq_double(const gpointer v1, LttvFieldValue v2) {
double* r = (double*) v1;
return (*r == v2.v_double);
}
* @param v2 right member of comparison
* @return success/failure of operation
*/
-gboolean lttv_apply_op_eq_string(gpointer v1, LttvFieldValue v2) {
+gboolean lttv_apply_op_eq_string(const gpointer v1, LttvFieldValue v2) {
char* r = (char*) v1;
return (!g_strcasecmp(r,v2.v_string));
}
+/**
+ * @fn gboolean lttv_apply_op_eq_quark(gpointer,LttvFieldValue)
+ *
+ * Applies the 'equal' operator to the
+ * specified structure and value
+ * @param v1 left member of comparison
+ * @param v2 right member of comparison
+ * @return success/failure of operation
+ */
+gboolean lttv_apply_op_eq_quark(const gpointer v1, LttvFieldValue v2) {
+ GQuark* r = (GQuark*) v1;
+// g_print("v1:%i v2:%i\n",*r,v2.v_uint32);
+ return (*r == v2.v_uint32);
+}
+
+/**
+ * @fn gboolean lttv_apply_op_eq_ltttime(gpointer,LttvFieldValue)
+ *
+ * Applies the 'equal' operator to the
+ * specified structure and value
+ * @param v1 left member of comparison
+ * @param v2 right member of comparison
+ * @return success/failure of operation
+ */
+gboolean lttv_apply_op_eq_ltttime(const gpointer v1, LttvFieldValue v2) {
+ LttTime* r = (LttTime*) v1;
+ return ltt_time_compare(*r, v2.v_ltttime)==0?1:0;
+}
+
+
/**
* @fn gboolean lttv_apply_op_ne_uint64(gpointer,LttvFieldValue)
*
* @param v2 right member of comparison
* @return success/failure of operation
*/
-gboolean lttv_apply_op_ne_uint64(gpointer v1, LttvFieldValue v2) {
+gboolean lttv_apply_op_ne_uint64(const gpointer v1, LttvFieldValue v2) {
guint64* r = (guint64*) v1;
return (*r != v2.v_uint64);
}
* @param v2 right member of comparison
* @return success/failure of operation
*/
-gboolean lttv_apply_op_ne_uint32(gpointer v1, LttvFieldValue v2) {
+gboolean lttv_apply_op_ne_uint32(const gpointer v1, LttvFieldValue v2) {
guint32* r = (guint32*) v1;
return (*r != v2.v_uint32);
}
* @param v2 right member of comparison
* @return success/failure of operation
*/
-gboolean lttv_apply_op_ne_uint16(gpointer v1, LttvFieldValue v2) {
+gboolean lttv_apply_op_ne_uint16(const gpointer v1, LttvFieldValue v2) {
guint16* r = (guint16*) v1;
return (*r != v2.v_uint16);
}
* @param v2 right member of comparison
* @return success/failure of operation
*/
-gboolean lttv_apply_op_ne_double(gpointer v1, LttvFieldValue v2) {
+gboolean lttv_apply_op_ne_double(const gpointer v1, LttvFieldValue v2) {
double* r = (double*) v1;
return (*r != v2.v_double);
}
* @param v2 right member of comparison
* @return success/failure of operation
*/
-gboolean lttv_apply_op_ne_string(gpointer v1, LttvFieldValue v2) {
+gboolean lttv_apply_op_ne_string(const gpointer v1, LttvFieldValue v2) {
char* r = (char*) v1;
return (g_strcasecmp(r,v2.v_string));
}
+/**
+ * @fn gboolean lttv_apply_op_ne_quark(gpointer,LttvFieldValue)
+ *
+ * Applies the 'not equal' operator to the
+ * specified structure and value
+ * @param v1 left member of comparison
+ * @param v2 right member of comparison
+ * @return success/failure of operation
+ */
+gboolean lttv_apply_op_ne_quark(const gpointer v1, LttvFieldValue v2) {
+ GQuark* r = (GQuark*) v1;
+ return (*r != v2.v_uint32);
+}
+
+
+/**
+ * @fn gboolean lttv_apply_op_ne_ltttime(gpointer,LttvFieldValue)
+ *
+ * Applies the 'not equal' operator to the
+ * specified structure and value
+ * @param v1 left member of comparison
+ * @param v2 right member of comparison
+ * @return success/failure of operation
+ */
+gboolean lttv_apply_op_ne_ltttime(const gpointer v1, LttvFieldValue v2) {
+ LttTime* r = (LttTime*) v1;
+ return ltt_time_compare(*r, v2.v_ltttime)!=0?1:0;
+}
+
+
/**
* @fn gboolean lttv_apply_op_lt_uint64(gpointer,LttvFieldValue)
*
* @param v2 right member of comparison
* @return success/failure of operation
*/
-gboolean lttv_apply_op_lt_uint64(gpointer v1, LttvFieldValue v2) {
+gboolean lttv_apply_op_lt_uint64(const gpointer v1, LttvFieldValue v2) {
guint64* r = (guint64*) v1;
return (*r < v2.v_uint64);
}
* @param v2 right member of comparison
* @return success/failure of operation
*/
-gboolean lttv_apply_op_lt_uint32(gpointer v1, LttvFieldValue v2) {
+gboolean lttv_apply_op_lt_uint32(const gpointer v1, LttvFieldValue v2) {
guint32* r = (guint32*) v1;
return (*r < v2.v_uint32);
}
* @param v2 right member of comparison
* @return success/failure of operation
*/
-gboolean lttv_apply_op_lt_uint16(gpointer v1, LttvFieldValue v2) {
+gboolean lttv_apply_op_lt_uint16(const gpointer v1, LttvFieldValue v2) {
guint16* r = (guint16*) v1;
return (*r < v2.v_uint16);
}
* @param v2 right member of comparison
* @return success/failure of operation
*/
-gboolean lttv_apply_op_lt_double(gpointer v1, LttvFieldValue v2) {
+gboolean lttv_apply_op_lt_double(const gpointer v1, LttvFieldValue v2) {
double* r = (double*) v1;
return (*r < v2.v_double);
}
+/**
+ * @fn gboolean lttv_apply_op_lt_ltttime(gpointer,LttvFieldValue)
+ *
+ * Applies the 'lower than' operator to the
+ * specified structure and value
+ * @param v1 left member of comparison
+ * @param v2 right member of comparison
+ * @return success/failure of operation
+ */
+gboolean lttv_apply_op_lt_ltttime(const gpointer v1, LttvFieldValue v2) {
+ LttTime* r = (LttTime*) v1;
+// return ((r->tv_sec < v2.v_ltttime.tv_sec) || ((r->tv_sec == v2.v_ltttime.tv_sec) && (r->tv_nsec < v2.v_ltttime.tv_nsec)));
+ return ltt_time_compare(*r, v2.v_ltttime)==-1?1:0;
+}
+
+
/**
* @fn gboolean lttv_apply_op_le_uint64(gpointer,LttvFieldValue)
*
* @param v2 right member of comparison
* @return success/failure of operation
*/
-gboolean lttv_apply_op_le_uint64(gpointer v1, LttvFieldValue v2) {
+gboolean lttv_apply_op_le_uint64(const gpointer v1, LttvFieldValue v2) {
guint64* r = (guint64*) v1;
return (*r <= v2.v_uint64);
}
* @param v2 right member of comparison
* @return success/failure of operation
*/
-gboolean lttv_apply_op_le_uint32(gpointer v1, LttvFieldValue v2) {
+gboolean lttv_apply_op_le_uint32(const gpointer v1, LttvFieldValue v2) {
guint32* r = (guint32*) v1;
return (*r <= v2.v_uint32);
}
* @param v2 right member of comparison
* @return success/failure of operation
*/
-gboolean lttv_apply_op_le_uint16(gpointer v1, LttvFieldValue v2) {
+gboolean lttv_apply_op_le_uint16(const gpointer v1, LttvFieldValue v2) {
guint16* r = (guint16*) v1;
return (*r <= v2.v_uint16);
}
* @param v2 right member of comparison
* @return success/failure of operation
*/
-gboolean lttv_apply_op_le_double(gpointer v1, LttvFieldValue v2) {
+gboolean lttv_apply_op_le_double(const gpointer v1, LttvFieldValue v2) {
double* r = (double*) v1;
return (*r <= v2.v_double);
}
+/**
+ * @fn gboolean lttv_apply_op_le_ltttime(gpointer,LttvFieldValue)
+ *
+ * Applies the 'lower or equal' operator to the
+ * specified structure and value
+ * @param v1 left member of comparison
+ * @param v2 right member of comparison
+ * @return success/failure of operation
+ */
+gboolean lttv_apply_op_le_ltttime(const gpointer v1, LttvFieldValue v2) {
+ LttTime* r = (LttTime*) v1;
+// return ((r->tv_sec < v2.v_ltttime.tv_sec) || ((r->tv_sec == v2.v_ltttime.tv_sec) && (r->tv_nsec <= v2.v_ltttime.tv_nsec)));
+ return ltt_time_compare(*r, v2.v_ltttime)<1?1:0;
+}
+
+
/**
* @fn gboolean lttv_apply_op_gt_uint64(gpointer,LttvFieldValue)
*
* @param v2 right member of comparison
* @return success/failure of operation
*/
-gboolean lttv_apply_op_gt_uint64(gpointer v1, LttvFieldValue v2) {
+gboolean lttv_apply_op_gt_uint64(const gpointer v1, LttvFieldValue v2) {
guint64* r = (guint64*) v1;
return (*r > v2.v_uint64);
}
* @param v2 right member of comparison
* @return success/failure of operation
*/
-gboolean lttv_apply_op_gt_uint32(gpointer v1, LttvFieldValue v2) {
+gboolean lttv_apply_op_gt_uint32(const gpointer v1, LttvFieldValue v2) {
guint32* r = (guint32*) v1;
return (*r > v2.v_uint32);
}
* @param v2 right member of comparison
* @return success/failure of operation
*/
-gboolean lttv_apply_op_gt_uint16(gpointer v1, LttvFieldValue v2) {
+gboolean lttv_apply_op_gt_uint16(const gpointer v1, LttvFieldValue v2) {
guint16* r = (guint16*) v1;
return (*r > v2.v_uint16);
}
* @param v2 right member of comparison
* @return success/failure of operation
*/
-gboolean lttv_apply_op_gt_double(gpointer v1, LttvFieldValue v2) {
+gboolean lttv_apply_op_gt_double(const gpointer v1, LttvFieldValue v2) {
double* r = (double*) v1;
return (*r > v2.v_double);
}
+/**
+ * @fn gboolean lttv_apply_op_gt_ltttime(gpointer,LttvFieldValue)
+ *
+ * Applies the 'greater than' operator to the
+ * specified structure and value
+ * @param v1 left member of comparison
+ * @param v2 right member of comparison
+ * @return success/failure of operation
+ */
+gboolean lttv_apply_op_gt_ltttime(const gpointer v1, LttvFieldValue v2) {
+ LttTime* r = (LttTime*) v1;
+// return ((r->tv_sec > v2.v_ltttime.tv_sec) || ((r->tv_sec == v2.v_ltttime.tv_sec) && (r->tv_nsec > v2.v_ltttime.tv_nsec)));
+ return ltt_time_compare(*r, v2.v_ltttime)==1?1:0;
+}
+
+
/**
* @fn gboolean lttv_apply_op_ge_uint64(gpointer,LttvFieldValue)
*
* @param v2 right member of comparison
* @return success/failure of operation
*/
-gboolean lttv_apply_op_ge_uint64(gpointer v1, LttvFieldValue v2) {
+gboolean lttv_apply_op_ge_uint64(const gpointer v1, LttvFieldValue v2) {
guint64* r = (guint64*) v1;
return (*r >= v2.v_uint64);
}
* @param v2 right member of comparison
* @return success/failure of operation
*/
-gboolean lttv_apply_op_ge_uint32(gpointer v1, LttvFieldValue v2) {
+gboolean lttv_apply_op_ge_uint32(const gpointer v1, LttvFieldValue v2) {
guint32* r = (guint32*) v1;
return (*r >= v2.v_uint32);
}
* @param v2 right member of comparison
* @return success/failure of operation
*/
-gboolean lttv_apply_op_ge_uint16(gpointer v1, LttvFieldValue v2) {
+gboolean lttv_apply_op_ge_uint16(const gpointer v1, LttvFieldValue v2) {
guint16* r = (guint16*) v1;
return (*r >= v2.v_uint16);
}
/**
- * @fn gboolean lttv_apply_op_ge_double(gpointer,LttvFieldValue)
+ * @fn gboolean lttv_apply_op_ge_double(gpointer,LttvFieldValue)
*
* Applies the 'greater or equal' operator to the
* specified structure and value
* @param v2 right member of comparison
* @return success/failure of operation
*/
-gboolean lttv_apply_op_ge_double(gpointer v1, LttvFieldValue v2) {
+gboolean lttv_apply_op_ge_double(const gpointer v1, LttvFieldValue v2) {
double* r = (double*) v1;
return (*r >= v2.v_double);
}
-
/**
- * @fn LttvFilterTree* lttv_filter_tree_clone(LttvFilterTree*)
+ * @fn gboolean lttv_apply_op_ge_ltttime(gpointer,LttvFieldValue)
*
+ * Applies the 'greater or equal' operator to the
+ * specified structure and value
+ * @param v1 left member of comparison
+ * @param v2 right member of comparison
+ * @return success/failure of operation
+ */
+gboolean lttv_apply_op_ge_ltttime(const gpointer v1, LttvFieldValue v2) {
+ LttTime* r = (LttTime*) v1;
+// return ((r->tv_sec > v2.v_ltttime.tv_sec) || ((r->tv_sec == v2.v_ltttime.tv_sec) && (r->tv_nsec >= v2.v_ltttime.tv_nsec)));
+ return ltt_time_compare(*r, v2.v_ltttime)>-1?1:0;
+}
+
+
+
+/**
* Makes a copy of the current filter tree
* @param tree pointer to the current tree
* @return new copy of the filter tree
*/
LttvFilterTree*
-lttv_filter_tree_clone(LttvFilterTree* tree) {
+lttv_filter_tree_clone(const LttvFilterTree* tree) {
LttvFilterTree* newtree = lttv_filter_tree_new();
}
/**
- * @fn LttvFilter* lttv_filter_clone(LttvFilter*)
- *
* Makes a copy of the current filter
* @param filter pointer to the current filter
* @return new copy of the filter
*/
LttvFilter*
-lttv_filter_clone(LttvFilter* filter) {
+lttv_filter_clone(const LttvFilter* filter) {
+
+ if(!filter) return NULL;
-
LttvFilter* newfilter = g_new(LttvFilter,1);
- // newfilter->expression = g_new(char,1)
strcpy(newfilter->expression,filter->expression);
newfilter->head = lttv_filter_tree_clone(filter->head);
/**
* @fn LttvFilter* lttv_filter_new()
*
- * Creates a new lttv_filter
- * @param expression filtering options string
- * @param t pointer to the current LttvTrace
- * @return the current lttv_filter or NULL if error
+ * Creates a new LttvFilter
+ * @return the current LttvFilter or NULL if error
*/
LttvFilter*
lttv_filter_new() {
LttvFilter* filter = g_new(LttvFilter,1);
filter->expression = NULL;
filter->head = NULL;
+
+ return filter;
}
gboolean
lttv_filter_update(LttvFilter* filter) {
- g_print("filter::lttv_filter_new()\n"); /* debug */
+// g_print("filter::lttv_filter_new()\n"); /* debug */
if(filter->expression == NULL) return FALSE;
int
i,
- p_nesting=0; /* parenthesis nesting value */
-
+ p_nesting=0, /* parenthesis nesting value */
+ not=0;
+
/* trees */
LttvFilterTree
*tree = lttv_filter_tree_new(), /* main tree */
*subtree = NULL, /* buffer for subtrees */
*t1, /* buffer #1 */
- *t2; /* buffer #2 */
+ *t2, /* buffer #2 */
+ *t3; /* buffer #3 */
/*
* the filter
* 2. the subtree is completed, allocate a new subtree
* 3. pop the tree value from the tree stack
*/
+
+#ifdef TEST
+ struct timeval starttime;
+ struct timeval endtime;
+ gettimeofday(&starttime, NULL);
+#endif
- g_print("expression: %s\n",filter->expression);
- g_print("strlen(expression): %i\n",strlen(filter->expression));
for(i=0;i<strlen(filter->expression);i++) {
// debug
- g_print("%c ",filter->expression[i]);
+// g_print("%c\n ",filter->expression[i]);
+
switch(filter->expression[i]) {
/*
* logical operators
*/
case '&': /* and */
-
+
+ /* get current tree in tree stack */
t1 = (LttvFilterTree*)g_ptr_array_index(tree_stack,tree_stack->len-1);
+
+ /* get current node at absolute right */
while(t1->right != LTTV_TREE_IDLE) {
g_assert(t1->right == LTTV_TREE_NODE);
t1 = t1->r_child.t;
}
t2 = lttv_filter_tree_new();
t2->node = LTTV_LOGICAL_AND;
+ t1->right = LTTV_TREE_NODE;
+ t1->r_child.t = t2;
+ if(not) { /* add not operator to tree */
+ t3 = lttv_filter_tree_new();
+ t3->node = LTTV_LOGICAL_NOT;
+ t2->left = LTTV_TREE_NODE;
+ t2->l_child.t = t3;
+ t2 = t3;
+ not = 0;
+ }
if(subtree != NULL) { /* append subtree to current tree */
t2->left = LTTV_TREE_NODE;
t2->l_child.t = subtree;
subtree = NULL;
- t1->right = LTTV_TREE_NODE;
- t1->r_child.t = t2;
} else { /* append a simple expression */
lttv_simple_expression_assign_value(a_simple_expression,g_string_free(a_field_component,FALSE));
- // a_simple_expression->value = g_string_free(a_field_component,FALSE);
a_field_component = g_string_new("");
t2->left = LTTV_TREE_LEAF;
t2->l_child.leaf = a_simple_expression;
a_simple_expression = lttv_simple_expression_new();
- t1->right = LTTV_TREE_NODE;
- t1->r_child.t = t2;
- g_print("t1:%p t1->child:%p\n",t1,t1->r_child.t);
}
break;
}
t2 = lttv_filter_tree_new();
t2->node = LTTV_LOGICAL_OR;
- if(subtree != NULL) { /* append subtree to current tree */
+ t1->right = LTTV_TREE_NODE;
+ t1->r_child.t = t2;
+ if(not) { // add not operator to tree
+ t3 = lttv_filter_tree_new();
+ t3->node = LTTV_LOGICAL_NOT;
+ t2->left = LTTV_TREE_NODE;
+ t2->l_child.t = t3;
+ t2 = t3;
+ not = 0;
+ }
+ if(subtree != NULL) { /* append subtree to current tree */
t2->left = LTTV_TREE_NODE;
t2->l_child.t = subtree;
subtree = NULL;
- t1->right = LTTV_TREE_NODE;
- t1->r_child.t = t2;
- } else { /* append a simple expression */
+ } else { /* append a simple expression */
lttv_simple_expression_assign_value(a_simple_expression,g_string_free(a_field_component,FALSE));
- //a_simple_expression->value = g_string_free(a_field_component,FALSE);
a_field_component = g_string_new("");
t2->left = LTTV_TREE_LEAF;
t2->l_child.leaf = a_simple_expression;
a_simple_expression = lttv_simple_expression_new();
- t1->right = LTTV_TREE_NODE;
- t1->r_child.t = t2;
}
break;
}
t2 = lttv_filter_tree_new();
t2->node = LTTV_LOGICAL_XOR;
+ t1->right = LTTV_TREE_NODE;
+ t1->r_child.t = t2;
+ if(not) { // add not operator to tree
+ t3 = lttv_filter_tree_new();
+ t3->node = LTTV_LOGICAL_NOT;
+ t2->left = LTTV_TREE_NODE;
+ t2->l_child.t = t3;
+ t2 = t3;
+ not = 0;
+ }
if(subtree != NULL) { /* append subtree to current tree */
t2->left = LTTV_TREE_NODE;
t2->l_child.t = subtree;
subtree = NULL;
- t1->right = LTTV_TREE_NODE;
- t1->r_child.t = t2;
} else { /* append a simple expression */
lttv_simple_expression_assign_value(a_simple_expression,g_string_free(a_field_component,FALSE));
- //a_simple_expression->value = g_string_free(a_field_component,FALSE);
a_field_component = g_string_new("");
t2->left = LTTV_TREE_LEAF;
t2->l_child.leaf = a_simple_expression;
a_simple_expression = lttv_simple_expression_new();
- t1->right = LTTV_TREE_NODE;
- t1->r_child.t = t2;
}
break;
lttv_simple_expression_assign_operator(a_simple_expression,LTTV_FIELD_NE);
i++;
} else { /* ! */
- t1 = (LttvFilterTree*)g_ptr_array_index(tree_stack,tree_stack->len-1);
- while(t1->right != LTTV_TREE_IDLE) {
- g_assert(t1->right == LTTV_TREE_NODE);
- t1 = t1->r_child.t;
- }
- t2 = lttv_filter_tree_new();
- t2->node = LTTV_LOGICAL_NOT;
- t1->right = LTTV_TREE_NODE;
- t1->r_child.t = t2;
+ not=1;
}
break;
p_nesting++; /* incrementing parenthesis nesting value */
t1 = lttv_filter_tree_new();
+ if(not) { /* add not operator to tree */
+ t3 = lttv_filter_tree_new();
+ t3->node = LTTV_LOGICAL_NOT;
+ t1->right = LTTV_TREE_NODE;
+ t1->r_child.t = t3;
+ not = 0;
+ }
g_ptr_array_add( tree_stack,(gpointer) t1 );
break;
/* there must at least be the root tree left in the array */
g_assert(tree_stack->len>0);
-
+
+ t1 = g_ptr_array_index(tree_stack,tree_stack->len-1);
+ while(t1->right != LTTV_TREE_IDLE) {
+ t1 = t1->r_child.t;
+ }
+ if(not) { // add not operator to tree
+ g_print("ici");
+ t3 = lttv_filter_tree_new();
+ t3->node = LTTV_LOGICAL_NOT;
+ t1->right = LTTV_TREE_NODE;
+ t1->r_child.t = t3;
+ t1 = t3;
+ not = 0;
+ }
if(subtree != NULL) { /* append subtree to current tree */
- t1 = g_ptr_array_index(tree_stack,tree_stack->len-1);
- while(t1->right != LTTV_TREE_IDLE) {
- g_assert(t1->right == LTTV_TREE_NODE);
- t1 = t1->r_child.t;
- }
t1->right = LTTV_TREE_NODE;
t1->r_child.t = subtree;
subtree = g_ptr_array_index(tree_stack,tree_stack->len-1);
g_ptr_array_remove_index(tree_stack,tree_stack->len-1);
} else { /* assign subtree as current tree */
lttv_simple_expression_assign_value(a_simple_expression,g_string_free(a_field_component,FALSE));
- //a_simple_expression->value = g_string_free(a_field_component,FALSE);
a_field_component = g_string_new("");
- t1 = g_ptr_array_index(tree_stack,tree_stack->len-1);
- g_print("here\n");
- while(t1->right != LTTV_TREE_IDLE) {
- g_print("while right:%i %p->child:%p\n",t1->right,t1,t1->r_child.t);
- g_assert(t1->right == LTTV_TREE_NODE);
- g_assert(t1->r_child.t != NULL);
- t1 = t1->r_child.t;
- }
- g_print("here2\n");
t1->right = LTTV_TREE_LEAF;
t1->r_child.leaf = a_simple_expression;
a_simple_expression = lttv_simple_expression_new();
/*
* divide field expression into elements
* in a_field_path array.
+ *
+ * A dot can also be present in double values
*/
- /* FIXME: check for double values */
-// if(a_simple_expression->op == NULL) {
+ if(a_simple_expression->field == LTTV_FILTER_UNDEFINED) {
g_ptr_array_add( a_field_path,(gpointer) a_field_component );
a_field_component = g_string_new("");
-// }
+ }
+ break;
+ case ' ': /* ignore */
+ case '\n': /* ignore */
break;
-// case ' ':
-// case '\n':
-// ignore
default: /* concatening current string */
g_string_append_c(a_field_component,filter->expression[i]);
}
}
- g_print("subtree:%p, tree:%p, t1:%p, t2:%p\n",subtree,tree,t1,t2);
- g_print("stack size: %i\n",tree_stack->len);
-
/*
* Preliminary check to see
* if tree was constructed correctly
if(tree_stack->len != 1) /* only root tree should remain */
return FALSE;
- /* processing last element of expression */
+ /*
+ * processing last element of expression
+ */
t1 = g_ptr_array_index(tree_stack,tree_stack->len-1);
while(t1->right != LTTV_TREE_IDLE) {
g_assert(t1->right == LTTV_TREE_NODE);
t1 = t1->r_child.t;
}
+ if(not) { // add not operator to tree
+ t3 = lttv_filter_tree_new();
+ t3->node = LTTV_LOGICAL_NOT;
+ t1->right = LTTV_TREE_NODE;
+ t1->r_child.t = t3;
+ t1 = t3;
+ not = 0;
+ }
if(subtree != NULL) { /* add the subtree */
t1->right = LTTV_TREE_NODE;
t1->r_child.t = subtree;
subtree = NULL;
} else { /* add a leaf */
lttv_simple_expression_assign_value(a_simple_expression,g_string_free(a_field_component,FALSE));
- //a_simple_expression->value = g_string_free(a_field_component,FALSE);
a_field_component = NULL;
t1->right = LTTV_TREE_LEAF;
t1->r_child.leaf = a_simple_expression;
g_ptr_array_free(a_field_path,TRUE);
/* free the tree stack -- but keep the root tree */
- // g_ptr_array_free(tree_stack,FALSE);
filter->head = g_ptr_array_remove_index(tree_stack,0);
g_ptr_array_free(tree_stack,TRUE);
g_assert(filter->head != NULL); /* tree should exist */
g_assert(subtree == NULL); /* remaining subtree should be included in main tree */
+
+#ifdef TEST
+ gettimeofday(&endtime, NULL);
+
+ /* Calcul du temps de l'algorithme */
+ double time1 = starttime.tv_sec + (starttime.tv_usec/1000000.0);
+ double time2 = endtime.tv_sec + (endtime.tv_usec/1000000.0);
+// g_print("Tree build took %.10f ms for strlen of %i\n",(time2-time1)*1000,strlen(filter->expression));
+ g_print("%.10f %i\n",(time2-time1)*1000,strlen(filter->expression));
+#endif
/* debug */
g_print("+++++++++++++++ BEGIN PRINT ++++++++++++++++\n");
- lttv_print_tree(filter->head) ;
+ lttv_print_tree(filter->head,0) ;
g_print("+++++++++++++++ END PRINT ++++++++++++++++++\n");
/* success */
void
lttv_filter_destroy(LttvFilter* filter) {
- g_free(filter->expression);
- lttv_filter_tree_destroy(filter->head);
+ if(!filter) return;
+
+ if(filter->expression)
+ g_free(filter->expression);
+ if(filter->head)
+ lttv_filter_tree_destroy(filter->head);
g_free(filter);
}
/**
- * LttvFilterTree* lttv_filter_tree_new()
+ * @fn LttvFilterTree* lttv_filter_tree_new()
*
* Assign a new tree for the current expression
* or sub expression
* @param expression string that must be appended
* @return Success/Failure of operation
*/
-gboolean lttv_filter_append_expression(LttvFilter* filter, char *expression) {
+gboolean
+lttv_filter_append_expression(LttvFilter* filter, const char *expression) {
if(expression == NULL) return FALSE;
- if(filter == NULL) {
- filter = lttv_filter_new();
- filter->expression = expression;
- } else if(filter->expression == NULL) {
- filter->expression = expression;
- } else {
- filter->expression = g_strconcat(filter->expression,"&",expression);
- }
+ if(filter == NULL) return FALSE;
+ GString* s = g_string_new("");
+ if(filter->expression != NULL) {
+ g_string_append(s,filter->expression);
+ g_string_append_c(s,'&');
+ }
+ g_string_append(s,expression);
+
+ g_free(filter->expression);
+ filter->expression = g_string_free(s,FALSE);
+
+ /* TRUE if construction of tree proceeded without errors */
return lttv_filter_update(filter);
}
* current filter and sets its pointer to NULL
* @param filter pointer to the current LttvFilter
*/
-void lttv_filter_clear_expression(LttvFilter* filter) {
+void
+lttv_filter_clear_expression(LttvFilter* filter) {
if(filter->expression != NULL) {
g_free(filter->expression);
}
/**
- * gboolean lttv_filter_tree_parse(LttvFilterTree*,LttEvent,LttTracefile,LttTrace,LttvProcessState)
- *
* Global parsing function for the current
* LttvFilterTree
- * @param tree pointer to the current LttvFilterTree
+ * @param t pointer to the current LttvFilterTree
* @param event current LttEvent, NULL if not used
* @param tracefile current LttTracefile, NULL if not used
* @param trace current LttTrace, NULL if not used
* @param state current LttvProcessState, NULL if not used
+ * @param context current LttvTracefileContext, NULL if not used
+ * @return response of filter
*/
gboolean
lttv_filter_tree_parse(
- LttvFilterTree* t,
- LttEvent* event,
- LttTracefile* tracefile,
- LttTrace* trace,
- LttvProcessState* state
+ const LttvFilterTree* t,
+ const LttEvent* event,
+ const LttTracefile* tracefile,
+ const LttTrace* trace,
+ const LttvProcessState* state,
+ const LttvTracefileContext* context
/*,...*/)
{
* -Result of left branch will not affect exploration of
* right branch
*/
- g_print("filter::lttv_parse_tree(...)\n");
gboolean lresult = FALSE, rresult = FALSE;
/*
* Parse left branch
*/
- if(t->left == LTTV_TREE_NODE) lresult = lttv_filter_tree_parse(t->l_child.t,event,tracefile,trace,state);
+ if(t->left == LTTV_TREE_NODE) {
+ lresult = lttv_filter_tree_parse(t->l_child.t,event,tracefile,trace,state,context);
+ }
else if(t->left == LTTV_TREE_LEAF) {
- //g_print("%p: left is %i %p %s\n",t,t->l_child.leaf->field,t->l_child.leaf->op,t->l_child.leaf->value);
- LttvFieldValue v;
- v = t->l_child.leaf->value;
- switch(t->l_child.leaf->field) {
-
- case LTTV_FILTER_TRACE_NAME:
- if(trace == NULL) lresult = TRUE;
- else lresult = t->l_child.leaf->op((gpointer)ltt_trace_name(trace),v);
- break;
- case LTTV_FILTER_TRACEFILE_NAME:
- if(tracefile == NULL) lresult = TRUE;
- else lresult = t->l_child.leaf->op((gpointer)ltt_tracefile_name(tracefile),v);
- break;
- case LTTV_FILTER_STATE_PID:
- if(state == NULL) lresult = TRUE;
- else lresult = t->l_child.leaf->op((gpointer)&state->pid,v);
- break;
- case LTTV_FILTER_STATE_PPID:
- if(state == NULL) lresult = TRUE;
- else lresult = t->l_child.leaf->op((gpointer)&state->ppid,v);
- break;
- case LTTV_FILTER_STATE_CT:
- if(state == NULL) lresult = TRUE;
- else {
- double val = ltt_time_to_double(state->creation_time);
- lresult = t->l_child.leaf->op((gpointer)&val,v);
- }
- break;
- case LTTV_FILTER_STATE_IT:
- if(state == NULL) lresult = TRUE;
- else {
- double val = ltt_time_to_double(state->insertion_time);
- lresult = t->l_child.leaf->op((gpointer)&val,v);
- }
- break;
- case LTTV_FILTER_STATE_P_NAME:
- /*
- * FIXME: Yet to be done ( I think ? )
- */
- lresult = TRUE;
- break;
- case LTTV_FILTER_STATE_EX_MODE:
- if(state == NULL) lresult = TRUE;
- else lresult = t->l_child.leaf->op((gpointer)&state->state->t,v);
- break;
- case LTTV_FILTER_STATE_EX_SUBMODE:
- if(state == NULL) lresult = TRUE;
- else lresult = t->l_child.leaf->op((gpointer)&state->state->n,v);
- break;
- case LTTV_FILTER_STATE_P_STATUS:
- if(state == NULL) lresult = TRUE;
- else lresult = t->l_child.leaf->op((gpointer)&state->state->s,v);
- break;
- case LTTV_FILTER_STATE_CPU:
- /*
- * FIXME: What is the comparison value ?
- */
- lresult = TRUE;
- break;
- case LTTV_FILTER_EVENT_NAME:
- if(event == NULL) lresult = TRUE;
- else lresult = t->l_child.leaf->op((gpointer)ltt_event_eventtype(event),v);
- break;
-
- case LTTV_FILTER_EVENT_CATEGORY:
- /*
- * FIXME: Not yet implemented
- */
- lresult = TRUE;
- break;
- case LTTV_FILTER_EVENT_TIME:
-// if(event == NULL) lresult = TRUE;
-// else {
-// double val = ltt_time_to_double(event->event_time);
-// lresult = t->l_child.leaf->op((gpointer)&val,v);
-// }
- lresult = TRUE;
- break;
- case LTTV_FILTER_EVENT_TSC:
-// if(event == NULL) lresult = TRUE;
-// else {
-// double val = ltt_time_to_double(event->event_time);
-// lresult = t->l_child.leaf->op((gpointer)&val,v);
-// }
- /*
- * FIXME: Where is event.tsc
- */
- lresult = TRUE;
- break;
- case LTTV_FILTER_EVENT_FIELD:
- /*
- * TODO: Use the offset to
- * find the dynamic field
- * in the event struct
- */
- lresult = TRUE;
- default:
- /*
- * This case should never be
- * parsed, if so, the whole
- * filtering is cancelled
- */
- g_warning("Error while parsing the filter tree");
- return TRUE;
- }
+ lresult = lttv_filter_tree_parse_branch(t->l_child.leaf,event,tracefile,trace,state,context);
}
-
+
/*
* Parse linking operator
* make a cutoff if possible
/*
* Parse right branch
*/
- if(t->right == LTTV_TREE_NODE) rresult = lttv_filter_tree_parse(t->r_child.t,event,tracefile,trace,state);
+ if(t->right == LTTV_TREE_NODE) {
+ rresult = lttv_filter_tree_parse(t->r_child.t,event,tracefile,trace,state,context);
+ }
else if(t->right == LTTV_TREE_LEAF) {
- //g_print("%p: right is %i %p %s\n",t,t->r_child.leaf->field,t->r_child.leaf->op,t->r_child.leaf->value);
+ rresult = lttv_filter_tree_parse_branch(t->r_child.leaf,event,tracefile,trace,state,context);
+ }
+
+
+ /*
+ * Apply and return the
+ * logical link between the
+ * two operation
+ */
+ switch(t->node) {
+ case LTTV_LOGICAL_OR: return (lresult | rresult);
+ case LTTV_LOGICAL_AND: return (lresult & rresult);
+ case LTTV_LOGICAL_NOT:
+ return (t->left==LTTV_TREE_LEAF)?!lresult:((t->right==LTTV_TREE_LEAF)?!rresult:TRUE);
+ case LTTV_LOGICAL_XOR: return (lresult ^ rresult);
+ case 0: return (rresult);
+ default:
+ /*
+ * This case should never be
+ * parsed, if so, this subtree
+ * is cancelled !
+ */
+ return TRUE;
+ }
+
+}
+
+/**
+ * This function parses a particular branch of the tree
+ * @param se pointer to the current LttvSimpleExpression
+ * @param event current LttEvent, NULL if not used
+ * @param tracefile current LttTracefile, NULL if not used
+ * @param trace current LttTrace, NULL if not used
+ * @param state current LttvProcessState, NULL if not used
+ * @param context current LttvTracefileContext, NULL if not used
+ * @return response of filter
+ */
+gboolean
+lttv_filter_tree_parse_branch(
+ const LttvSimpleExpression* se,
+ const LttEvent* event,
+ const LttTracefile* tracefile,
+ const LttTrace* trace,
+ const LttvProcessState* state,
+ const LttvTracefileContext* context) {
+
LttvFieldValue v;
- v = t->r_child.leaf->value;
- switch(t->r_child.leaf->field) {
-
+ v = se->value;
+ switch(se->field) {
case LTTV_FILTER_TRACE_NAME:
- if(trace == NULL) rresult = TRUE;
- else rresult = t->r_child.leaf->op((gpointer)ltt_trace_name(trace),v);
+ if(trace == NULL) return TRUE;
+ else {
+ char* trace_name = ltt_trace_name(trace);
+ GQuark quark = g_quark_from_string(trace_name);
+ return se->op((gpointer)&quark,v);
+ }
break;
case LTTV_FILTER_TRACEFILE_NAME:
- if(tracefile == NULL) rresult = TRUE;
- else rresult = t->r_child.leaf->op((gpointer)ltt_tracefile_name(tracefile),v);
+ if(tracefile == NULL) return TRUE;
+ else {
+ char* tracefile_name = ltt_tracefile_name(tracefile);
+ GQuark quark = g_quark_from_string(tracefile_name);
+ return se->op((gpointer)&quark,v);
+ }
break;
case LTTV_FILTER_STATE_PID:
- if(state == NULL) rresult = TRUE;
- else rresult = t->r_child.leaf->op((gpointer)&state->pid,v);
+ if(state == NULL) return TRUE;
+ else return se->op((gpointer)&state->pid,v);
break;
case LTTV_FILTER_STATE_PPID:
- if(state == NULL) rresult = TRUE;
- else rresult = t->r_child.leaf->op((gpointer)&state->ppid,v);
+ if(state == NULL) return TRUE;
+ else return se->op((gpointer)&state->ppid,v);
break;
case LTTV_FILTER_STATE_CT:
- if(state == NULL) rresult = TRUE;
+ if(state == NULL) return TRUE;
else {
- double val = ltt_time_to_double(state->creation_time);
- rresult = t->r_child.leaf->op((gpointer)&val,v);
+ return se->op((gpointer)&state->creation_time,v);
}
break;
case LTTV_FILTER_STATE_IT:
- if(state == NULL) rresult = TRUE;
+ if(state == NULL) return TRUE;
else {
- double val = ltt_time_to_double(state->insertion_time);
- rresult = t->r_child.leaf->op((gpointer)&val,v);
+ return se->op((gpointer)&state->insertion_time,v);
}
break;
case LTTV_FILTER_STATE_P_NAME:
/*
- * FIXME: Yet to be done ( I think ? )
+ * All 'unnamed' for the moment
*/
- rresult = TRUE;
+ if(state == NULL) return TRUE;
+ else {
+ GQuark quark = state->name;
+ return se->op((gpointer)&quark,v);
+ }
break;
case LTTV_FILTER_STATE_EX_MODE:
- if(state == NULL) rresult = TRUE;
- else rresult = t->r_child.leaf->op((gpointer)&state->state->t,v);
+ if(state == NULL) return TRUE;
+ else return se->op((gpointer)&state->state->t,v);
break;
case LTTV_FILTER_STATE_EX_SUBMODE:
- if(state == NULL) rresult = TRUE;
- else rresult = t->r_child.leaf->op((gpointer)&state->state->n,v);
+ if(state == NULL) return TRUE;
+ else return se->op((gpointer)&state->state->n,v);
break;
case LTTV_FILTER_STATE_P_STATUS:
- if(state == NULL) rresult = TRUE;
- else rresult = t->r_child.leaf->op((gpointer)&state->state->s,v);
+ if(state == NULL) return TRUE;
+ else return se->op((gpointer)&state->state->s,v);
break;
case LTTV_FILTER_STATE_CPU:
- /*
- * FIXME: What is the comparison value ?
- */
- rresult = TRUE;
+ if(context == NULL) return TRUE;
+ else {
+ /* FIXME: not sure of that one */
+ GQuark quark = ((LttvTracefileState*)context)->cpu_name;
+ return se->op((gpointer)&quark,v);
+ }
break;
case LTTV_FILTER_EVENT_NAME:
- if(event == NULL) rresult = TRUE;
- else rresult = t->r_child.leaf->op((gpointer)ltt_event_eventtype(event),v);
+ if(event == NULL) return TRUE;
+ else {
+ LttEventType* et;
+ et = ltt_event_eventtype(event);
+ char* event_name = ltt_eventtype_name(et);
+ GQuark quark = g_quark_from_string(event_name);
+ return se->op((gpointer)&quark,v);
+ }
break;
case LTTV_FILTER_EVENT_CATEGORY:
/*
- * FIXME: Not yet implemented
+ * TODO: Not yet implemented
*/
- rresult = TRUE;
+ return TRUE;
break;
case LTTV_FILTER_EVENT_TIME:
-// if(event == NULL) rresult = TRUE;
-// else {
-// double val = ltt_time_to_double(event->event_time);
-// rresult = t->r_child.leaf->op((gpointer)&val,v);
-// }
- rresult = TRUE;
+ if(event == NULL) return TRUE;
+ else {
+ LttTime time = ltt_event_time(event);
+ return se->op((gpointer)&time,v);
+ }
break;
case LTTV_FILTER_EVENT_TSC:
-// if(event == NULL) rresult = TRUE;
-// else {
-// double val = ltt_time_to_double(event->event_time);
-// rresult = t->r_child.leaf->op((gpointer)&val,v);
-// }
- /*
- * FIXME: Where is event.tsc
- */
- rresult = TRUE;
+ if(event == NULL) return TRUE;
+ else {
+ LttCycleCount count = ltt_event_cycle_count(event);
+ return se->op((gpointer)&count,v);
+ }
break;
case LTTV_FILTER_EVENT_FIELD:
/*
* find the dynamic field
* in the event struct
*/
- rresult = TRUE;
+ return TRUE;
default:
/*
* This case should never be
- * parsed, if so, this subtree
- * is cancelled !
+ * parsed, if so, the whole
+ * filtering is cancelled
*/
g_warning("Error while parsing the filter tree");
return TRUE;
}
- }
-
- /*
- * Apply and return the
- * logical link between the
- * two operation
- */
- switch(t->node) {
- case LTTV_LOGICAL_OR: return (lresult | rresult);
- case LTTV_LOGICAL_AND: return (lresult & rresult);
- case LTTV_LOGICAL_NOT: return (!rresult);
- case LTTV_LOGICAL_XOR: return (lresult ^ rresult);
- default:
- /*
- * This case should never be
- * parsed, if so, this subtree
- * is cancelled !
- */
- return TRUE;
- }
-
+
+ /* should never get here */
+ return TRUE;
+
}
+
+
/**
- * @fn void lttv_print_tree(LttvFilterTree*)
- *
- * Debug
+ * Debug function. Prints tree memory allocation.
* @param t the pointer to the current LttvFilterTree
*/
void
-lttv_print_tree(LttvFilterTree* t) {
+lttv_print_tree(const LttvFilterTree* t, const int count) {
- g_print("node:%p lchild:%p rchild:%p\n",t, //t->l_child.t,t->r_child.t);
+ g_print("node:%p lchild:%p rchild:%p depth:%i\n",t, //t->l_child.t,t->r_child.t);
(t->left==LTTV_TREE_NODE)?t->l_child.t:NULL,
- (t->right==LTTV_TREE_NODE)?t->r_child.t:NULL);
- g_print("node type: %i / [left] %i / [right] %i\n",t->node,t->left,t->right);
- if(t->left == LTTV_TREE_NODE) lttv_print_tree(t->l_child.t);
- else if(t->left == LTTV_TREE_LEAF) {
-// g_assert(t->l_child.leaf->value != NULL);
- g_print("%p: left is %i %p value\n",t,t->l_child.leaf->field,t->l_child.leaf->op);
+ (t->right==LTTV_TREE_NODE)?t->r_child.t:NULL,
+ count);
+ g_print("logic operator: %s\n",(t->node&1)?"OR":((t->node&2)?"AND":((t->node&4)?"NOT":((t->node&8)?"XOR":"IDLE"))));
+ g_print("|-> left branch %p is a %s\n",t->l_child.t,(t->left==LTTV_TREE_NODE)?"NODE":((t->left==LTTV_TREE_LEAF)?"LEAF":"IDLE"));
+ if(t->left == LTTV_TREE_LEAF) {
+ g_print("| |-> field type number: %i\n",t->l_child.leaf->field);
+ g_print("| |-> offset is: %i\n",t->l_child.leaf->offset);
+ g_print("| |-> operator function is: %p\n",t->l_child.leaf->op);
}
- if(t->right == LTTV_TREE_NODE) lttv_print_tree(t->r_child.t);
- else if(t->right == LTTV_TREE_LEAF) {
-// g_assert(t->r_child.leaf->value != NULL);
- g_print("%p: right is %i %p value\n",t,t->r_child.leaf->field,t->r_child.leaf->op);
+ g_print("|-> right branch %p is a %s\n",t->r_child.t,(t->right==LTTV_TREE_NODE)?"NODE":((t->right==LTTV_TREE_LEAF)?"LEAF":"IDLE"));
+ if(t->right == LTTV_TREE_LEAF) {
+ g_print("| |-> field type number: %i\n",t->r_child.leaf->field);
+ g_print("| |-> offset is: %i\n",t->r_child.leaf->offset);
+ g_print("| |-> operator function is: %p\n",t->r_child.leaf->op);
}
-
-}
-
-/**
- * gboolean lttv_filter_tracefile(LttvFilter*, LttTracefile*)
- *
- * Apply the filter to a specific trace
- * @param filter the current filter applied
- * @param tracefile the trace to apply the filter to
- * @return success/failure of operation
- */
-gboolean
-lttv_filter_tracefile(LttvFilter *filter, LttTracefile *tracefile) {
-
- return lttv_filter_tree_parse(filter->head,NULL,tracefile,NULL,NULL);
-
-}
-
-/**
- * @fn gboolean lttv_filter_tracestate(LttvFilter*,LttvTraceState*)
- *
- * Parse the current tracestate
- * @param filter pointer to the current LttvFilter
- * @param tracestate pointer to the current tracestate
- */
-gboolean
-lttv_filter_tracestate(LttvFilter *filter, LttvTraceState *tracestate) {
-
-}
-
-/**
- * @fn gboolean lttv_filter_event(LttvFilter*,LttEvent*)
- *
- * Apply the filter to a specific event
- * @param filter the current filter applied
- * @param event the event to apply the filter to
- * @return success/failure of operation
- */
-gboolean
-lttv_filter_event(LttvFilter *filter, LttEvent *event) {
+ if(t->left == LTTV_TREE_NODE) lttv_print_tree(t->l_child.t,count+1);
+ if(t->right == LTTV_TREE_NODE) lttv_print_tree(t->r_child.t,count+1);
}
/**