Mercurial > ~dholland > hg > ag > index.cgi
view anagram/guisupport/dc.cpp @ 0:13d2b8934445
Import AnaGram (near-)release tree into Mercurial.
| author | David A. Holland |
|---|---|
| date | Sat, 22 Dec 2007 17:52:45 -0500 |
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/* * AnaGram, A System for Syntax Directed Programming * Copyright 1993-2002 Parsifal Software. All Rights Reserved. * See the file COPYING for license and usage terms. * * dc.cpp - display contexts */ #include "assert.h" #include "dc.h" #include "myalloc.h" #include "stacks.h" #include "wdata.h" #include "wm1.h" //#define INCLUDE_LOGGING #include "log.h" static int dcsCreated = 0; static int dcsDestroyed = 0; //////////////////////////////////////////////////////////// // // dc methods void dc::init_dc(void) { LOGSECTION("dc::init"); LOGV((int) this) LCV(head_title) LCV(foot_title); id = this; clear_data(); des = ZALLOCATE(1, wd); tab_stops = NULL; syntax_dependent = 1; dcsCreated++; } void dc::clear_data(void) { LOGSECTION("dc::clear_data"); usage_count = 0; tab_stops = NULL; syntax_dependent = 1; } dc::dc(void) : head_title() , foot_title() , windowConnector(0) { init_dc(); } dc::dc(const AgString head) : head_title(head) , foot_title() , windowConnector(0) { init_dc(); } dc::dc(const AgString head, const AgString foot) : head_title(head) , foot_title(foot) , windowConnector(0) { init_dc(); } dc::dc(dc &x) : head_title(x.head_title) , foot_title(x.foot_title) , windowConnector(0) { id = this; des = ZALLOCATE(1,wd); *des = *x.des; syntax_dependent = x.syntax_dependent; tab_stops = x.tab_stops; columnHeadTitle = x.columnHeadTitle; usage_count = 0; dcsCreated++; } dc::~dc(void) { LOGSECTION("dc::~dc"); LOGV(head_title) LCV(foot_title); assert(this == id && usage_count == 0); ok_ptr(this); ok_ptr(des); //if (windowConnector) delete windowConnector; DEALLOCATE(des); dcsDestroyed++; } AgString dc::findHelpTopic() { return AgString(); } #define CURSOR windowConnector->getCursorLine() void dc::anomaly_trace() { pop_up_window(anomaly_trace (CURSOR)); } void dc::aux_trace() { pop_up_window(aux_trace (CURSOR)); } void dc::derive_rule() { pop_up_window(derive_rule (CURSOR)); } void dc::derive_token() { pop_up_window(derive_token (CURSOR)); } void dc::expansion_chain() { pop_up_window(expansion_chain (CURSOR)); } void dc::expansion_rules() { pop_up_window(expansion_rules (CURSOR)); } void dc::keywords() { pop_up_window(keywords (CURSOR)); } void dc::partition_sets() { pop_up_window(partition_sets (CURSOR)); } void dc::previous_states() { pop_up_window(previous_states (CURSOR)); } void dc::problem_states() { pop_up_window(problem_states (CURSOR)); } void dc::productions() { pop_up_window(productions (CURSOR)); } void dc::reduction_states() { pop_up_window(reduction_states(CURSOR)); } void dc::reduction_trace() { pop_up_window(reduction_trace (CURSOR)); } void dc::rule_context() { pop_up_window(rule_context (CURSOR)); } //void dc::rule_stack() { pop_up_window(rule_stack (CURSOR)); } void dc::select_conflict() { pop_up_window(select_conflict (CURSOR)); } void dc::set_elements() { pop_up_window(set_elements (CURSOR)); } void dc::state_definition() { pop_up_window(state_definition(CURSOR)); } void dc::state_expansion() { pop_up_window(state_expansion (CURSOR)); } void dc::usage() { pop_up_window(usage (CURSOR)); } int dc::derive_rule_ok() { return derive_rule_ok (CURSOR); } int dc::expansion_chain_ok() { return expansion_chain_ok (CURSOR); } int dc::expansion_rules_ok() { return expansion_rules_ok (CURSOR); } int dc::keywords_ok() { return keywords_ok (CURSOR); } int dc::previous_states_ok() { return previous_states_ok (CURSOR); } int dc::productions_ok() { return productions_ok (CURSOR); } int dc::reduction_states_ok() { return reduction_states_ok (CURSOR); } int dc::rule_context_ok() { return rule_context_ok (CURSOR); } int dc::set_elements_ok() { return set_elements_ok (CURSOR); } int dc::state_expansion_ok() { return state_expansion_ok (CURSOR); } int dc::usage_ok() { return usage_ok (CURSOR); } #undef CURSOR void dc::getLine(unsigned ln) const { LOGSECTION("dc::getLine"); LOGV(ln); assert(ln < (unsigned) des->d_size.y); ics(); } //////////////////////////////////////////////////////////// // // dc_ref methods dc::ref::ref() : window(0) {} dc::ref::ref(dc *x) { LOGSECTION("dc::ref::ref"); window = x; if (window) { ok_ptr(window); window->usage_count++; LOGV((int) window) LCV(window->usage_count); } } dc::ref::ref(const ref &x) { window = x.window; if (window) { ok_ptr(window); window->usage_count++; } } dc::ref &dc::ref::operator =(const ref &x) { if (window == x.window) { return *this; } if (window) { ok_ptr(window); if (window->usage_count && --window->usage_count == 0) { delete window; } } window = x.window; if (window) { ok_ptr(window); window->usage_count++; } return *this; } dc::ref &dc::ref::operator =(dc *x) { if (window == x) { return *this; } if (window) { ok_ptr(window); LOGV((int) window) LCV(window->usage_count); if (window->usage_count && --window->usage_count == 0) { delete window; } } window = x; if (window) { ok_ptr(window); LOGV(window->usage_count); window->usage_count++; } return *this; } dc::ref::~ref(void) { LOGSECTION("dc::ref::~ref"); if (window) { ok_ptr(window); LOGV((int) window) LCV(window->usage_count); if (window->usage_count && --window->usage_count == 0) { delete window; } } } void dc::ref::discardData(void) { dc *alias = window; window = 0; if (alias) { ok_ptr(alias); LOGV((int) alias) LCV(alias->usage_count); if (alias->usage_count && --alias->usage_count == 0) { delete alias; } } } dc::ref::operator dc *(void) const { if (window) { ok_ptr(window); } return window; } dc *dc::ref::operator ->(void) const { ok_ptr(window); return window; }