/* -*- Mode: C -*- */ /*====================================================================== FILE: icalgauge.c CREATOR: eric 23 December 1999 $Id$ $Locker$ (C) COPYRIGHT 2000, Eric Busboom, http://www.softwarestudio.org This program is free software; you can redistribute it and/or modify it under the terms of either: The LGPL as published by the Free Software Foundation, version 2.1, available at: http://www.fsf.org/copyleft/lesser.html Or: The Mozilla Public License Version 1.0. You may obtain a copy of the License at http://www.mozilla.org/MPL/ The Original Code is eric. The Initial Developer of the Original Code is Eric Busboom ======================================================================*/ #include "ical.h" #include "icalgauge.h" #include "icalgaugeimpl.h" #include extern char* input_buffer; extern char* input_buffer_p; int ssparse(void); struct icalgauge_impl *icalss_yy_gauge; icalgauge* icalgauge_new_from_sql(char* sql) { struct icalgauge_impl *impl; int r; if ( ( impl = (struct icalgauge_impl*) malloc(sizeof(struct icalgauge_impl))) == 0) { icalerror_set_errno(ICAL_NEWFAILED_ERROR); return 0; } impl->select = pvl_newlist(); impl->from = pvl_newlist(); impl->where = pvl_newlist(); icalss_yy_gauge = impl; input_buffer_p = input_buffer = sql; r = ssparse(); return impl; } void icalgauge_free(icalgauge* gauge) { struct icalgauge_impl *impl = (struct icalgauge_impl*)gauge; struct icalgauge_where *w; assert(impl->select != 0); assert(impl->where != 0); assert(impl->from != 0); if(impl->select){ while( (w=pvl_pop(impl->select)) != 0){ if(w->value != 0){ free(w->value); } free(w); } pvl_free(impl->select); } if(impl->where){ while( (w=pvl_pop(impl->where)) != 0){ if(w->value != 0){ free(w->value); } free(w); } pvl_free(impl->where); } if(impl->from){ pvl_free(impl->from); } } /* Convert a VQUERY component into a gauge */ icalcomponent* icalgauge_make_gauge(icalcomponent* query); /* icaldirset_test compares a component against a gauge, and returns true if the component passes the test The gauge is a VCALENDAR component that specifies how to test the target components. The guage holds a collection of VEVENT, VTODO or VJOURNAL sub-components. Each of the sub-components has a collection of properties that are compared to corresponding properties in the target component, according to the X-LIC-COMPARETYPE parameters to the gauge's properties. When a gauge has several sub-components, the results of testing the target against each of them is ORed together - the target component will pass if it matches any of the sub-components in the gauge. However, the results of matching the properties in a sub-component are ANDed -- the target must match every property in a gauge sub-component to match the sub-component. Here is an example: BEGIN:XROOT DTSTART;X-LIC-COMPARETYPE=LESS:19981025T020000 ORGANIZER;X-LIC-COMPARETYPE=EQUAL:mrbig@host.com END:XROOT BEGIN:XROOT LOCATION;X-LIC-COMPARETYPE=EQUAL:McNary's Pub END:XROOT This gauge has two sub-components; one which will match a VEVENT based on start time, and organizer, and another that matches based on LOCATION. A target component will pass the test if it matched either of the sub-components. */ int icalgauge_compare_recurse(icalcomponent* comp, icalcomponent* gauge) { int pass = 1,localpass = 0; icalproperty *p; icalcomponent *child,*subgauge; icalcomponent_kind gaugekind, compkind; icalerror_check_arg_rz( (comp!=0), "comp"); icalerror_check_arg_rz( (gauge!=0), "gauge"); gaugekind = icalcomponent_isa(gauge); compkind = icalcomponent_isa(comp); if( ! (gaugekind == compkind || gaugekind == ICAL_ANY_COMPONENT) ){ return 0; } /* Test properties. For each property in the gauge, search through the component for a similar property. If one is found, compare the two properties value with the comparison specified in the gauge with the X-LIC-COMPARETYPE parameter */ for(p = icalcomponent_get_first_property(gauge,ICAL_ANY_PROPERTY); p != 0; p = icalcomponent_get_next_property(gauge,ICAL_ANY_PROPERTY)){ icalproperty* targetprop; icalparameter* compareparam; icalparameter_xliccomparetype compare; int rel; /* The relationship between the gauge and target values.*/ /* Extract the comparison type from the gauge. If there is no comparison type, assume that it is "EQUAL" */ compareparam = icalproperty_get_first_parameter( p, ICAL_XLICCOMPARETYPE_PARAMETER); if (compareparam!=0){ compare = icalparameter_get_xliccomparetype(compareparam); } else { compare = ICAL_XLICCOMPARETYPE_EQUAL; } /* Find a property in the component that has the same type as the gauge property. HACK -- multiples of a single property type in the gauge will match only the first instance in the component */ targetprop = icalcomponent_get_first_property(comp, icalproperty_isa(p)); if(targetprop != 0){ /* Compare the values of the gauge property and the target property */ rel = icalvalue_compare(icalproperty_get_value(p), icalproperty_get_value(targetprop)); /* Now see if the comparison is equavalent to the comparison specified in the gauge */ if (rel == compare){ localpass++; } else if (compare == ICAL_XLICCOMPARETYPE_LESSEQUAL && ( rel == ICAL_XLICCOMPARETYPE_LESS || rel == ICAL_XLICCOMPARETYPE_EQUAL)) { localpass++; } else if (compare == ICAL_XLICCOMPARETYPE_GREATEREQUAL && ( rel == ICAL_XLICCOMPARETYPE_GREATER || rel == ICAL_XLICCOMPARETYPE_EQUAL)) { localpass++; } else if (compare == ICAL_XLICCOMPARETYPE_NOTEQUAL && ( rel == ICAL_XLICCOMPARETYPE_GREATER || rel == ICAL_XLICCOMPARETYPE_LESS)) { localpass++; } else { localpass = 0; } pass = pass && (localpass>0); } } /* Test subcomponents. Look for a child component that has a counterpart in the gauge. If one is found, recursively call icaldirset_test */ for(subgauge = icalcomponent_get_first_component(gauge,ICAL_ANY_COMPONENT); subgauge != 0; subgauge = icalcomponent_get_next_component(gauge,ICAL_ANY_COMPONENT)){ gaugekind = icalcomponent_isa(subgauge); if (gaugekind == ICAL_ANY_COMPONENT){ child = icalcomponent_get_first_component(comp,ICAL_ANY_COMPONENT); } else { child = icalcomponent_get_first_component(comp,gaugekind); } if(child !=0){ localpass = icalgauge_compare_recurse(child,subgauge); pass = pass && localpass; } else { pass = 0; } } return pass; } int icalgauge_compare(icalgauge* gauge,icalcomponent* comp) { struct icalgauge_impl *impl = (struct icalgauge_impl*)gauge; icalcomponent *inner; int local_pass = 0; int last_clause = 1, this_clause = 1; pvl_elem e; icalerror_check_arg_rz( (comp!=0), "comp"); icalerror_check_arg_rz( (gauge!=0), "gauge"); inner = icalcomponent_get_first_real_component(comp); if(inner == 0){ icalerror_set_errno(ICAL_MALFORMEDDATA_ERROR); return 0; } /* Check that this component is one of the FROM types */ local_pass = 0; for(e = pvl_head(impl->from);e!=0;e=pvl_next(e)){ icalcomponent_kind k = (icalcomponent_kind)pvl_data(e); if(k == icalcomponent_isa(inner)){ local_pass=1; } } if(local_pass == 0){ return 0; } /* Check each where clause against the component */ for(e = pvl_head(impl->where);e!=0;e=pvl_next(e)){ struct icalgauge_where *w = pvl_data(e); icalcomponent *sub_comp; icalvalue *v; icalproperty *prop; icalvalue_kind vk; if(w->prop == ICAL_NO_PROPERTY || w->value == 0){ icalerror_set_errno(ICAL_INTERNAL_ERROR); return 0; } /* First, create a value from the gauge */ vk = icalenum_property_kind_to_value_kind(w->prop); if(vk == ICAL_NO_VALUE){ icalerror_set_errno(ICAL_INTERNAL_ERROR); return 0; } v = icalvalue_new_from_string(vk,w->value); if (v == 0){ /* Keep error set by icalvalue_from-string*/ return 0; } /* Now find the corresponding property in the component, descending into a sub-component if necessary */ if(w->comp == ICAL_NO_COMPONENT){ sub_comp = inner; } else { sub_comp = icalcomponent_get_first_component(inner,w->comp); if(sub_comp == 0){ return 0; } } this_clause = 0; local_pass = 0; for(prop = icalcomponent_get_first_property(sub_comp,w->prop); prop != 0; prop = icalcomponent_get_next_property(sub_comp,w->prop)){ icalvalue* prop_value; icalgaugecompare relation; prop_value = icalproperty_get_value(prop); relation = (icalgaugecompare)icalvalue_compare(prop_value,v); if (relation == w->compare){ local_pass++; } else if (w->compare == ICALGAUGECOMPARE_LESSEQUAL && ( relation == ICALGAUGECOMPARE_LESS || relation == ICALGAUGECOMPARE_EQUAL)) { local_pass++; } else if (w->compare == ICALGAUGECOMPARE_GREATEREQUAL && ( relation == ICALGAUGECOMPARE_GREATER || relation == ICALGAUGECOMPARE_EQUAL)) { local_pass++; } else if (w->compare == ICALGAUGECOMPARE_NOTEQUAL && ( relation == ICALGAUGECOMPARE_GREATER || relation == ICALGAUGECOMPARE_LESS)) { local_pass++; } else { local_pass = 0; } } this_clause = local_pass > 0 ? 1 : 0; /* Now look at the logic operator for this clause to see how the value should be merge with the previous clause */ if(w->logic == ICALGAUGELOGIC_AND){ last_clause = this_clause && last_clause; } else if(w->logic == ICALGAUGELOGIC_AND) { last_clause = this_clause || last_clause; } else { last_clause = this_clause; } } return last_clause; } void icalgauge_dump(icalcomponent* gauge) { pvl_elem *p; struct icalgauge_impl *impl = (struct icalgauge_impl*)gauge; printf("--- Select ---\n"); for(p = pvl_head(impl->select);p!=0;p=pvl_next(p)){ struct icalgauge_where *w = pvl_data(p); if(w->comp != ICAL_NO_COMPONENT){ printf("%s ",icalenum_component_kind_to_string(w->comp)); } if(w->prop != ICAL_NO_PROPERTY){ printf("%s ",icalenum_property_kind_to_string(w->prop)); } if (w->compare != ICALGAUGECOMPARE_NONE){ printf("%d ",w->compare); } if (w->value!=0){ printf("%s",w->value); } printf("\n"); } printf("--- From ---\n"); for(p = pvl_head(impl->from);p!=0;p=pvl_next(p)){ icalcomponent_kind k = (icalcomponent_kind)pvl_data(p); printf("%s\n",icalenum_component_kind_to_string(k)); } printf("--- Where ---\n"); for(p = pvl_head(impl->where);p!=0;p=pvl_next(p)){ struct icalgauge_where *w = pvl_data(p); if(w->logic != ICALGAUGELOGIC_NONE){ printf("%d ",w->logic); } if(w->comp != ICAL_NO_COMPONENT){ printf("%s ",icalenum_component_kind_to_string(w->comp)); } if(w->prop != ICAL_NO_PROPERTY){ printf("%s ",icalenum_property_kind_to_string(w->prop)); } if (w->compare != ICALGAUGECOMPARE_NONE){ printf("%d ",w->compare); } if (w->value!=0){ printf("%s",w->value); } printf("\n"); } }