/********************************************************************* debugvw.c Debugger view engine. **************************************************************************** Copyright Aaron Giles All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. * Neither the name 'MAME' nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY AARON GILES ''AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL AARON GILES BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. ***************************************************************************/ #include "emu.h" #include "express.h" #include "debugvw.h" #include "dvtext.h" #include "dvstate.h" #include "dvdisasm.h" #include "dvmemory.h" #include "debugcmd.h" #include "debugcpu.h" #include "debugcon.h" #include //************************************************************************** // DEBUG VIEW SOURCE //************************************************************************** //------------------------------------------------- // debug_view_source - constructor //------------------------------------------------- debug_view_source::debug_view_source(const char *name, device_t *device) : m_next(NULL), m_name(name), m_device(device), m_is_octal(false) { device_execute_interface *intf; if (device && device->interface(intf)) m_is_octal = intf->is_octal(); } //------------------------------------------------- // ~debug_view_source - destructor //------------------------------------------------- debug_view_source::~debug_view_source() { } //************************************************************************** // DEBUG VIEW SOURCE LIST //************************************************************************** //------------------------------------------------- // debug_view_source_list - constructor //------------------------------------------------- debug_view_source_list::debug_view_source_list(running_machine &machine) : m_machine(machine), m_head(NULL), m_tail(NULL), m_count(0) { } //------------------------------------------------- // ~debug_view_source_list - destructor //------------------------------------------------- debug_view_source_list::~debug_view_source_list() { reset(); } //------------------------------------------------- // index - return the index of a source //------------------------------------------------- int debug_view_source_list::index(const debug_view_source &source) const { int result = 0; for (debug_view_source *cursource = m_head; cursource != NULL; cursource = cursource->m_next) { if (cursource == &source) break; result++; } return result; } //------------------------------------------------- // by_index - return a source given an index //------------------------------------------------- const debug_view_source *debug_view_source_list::by_index(int index) const { if (m_head == NULL) return NULL; const debug_view_source *result; for (result = m_head; index > 0 && result->m_next != NULL; result = result->m_next) index--; return result; } //------------------------------------------------- // reset - free all the view_sources //------------------------------------------------- void debug_view_source_list::reset() { // free from the head while (m_head != NULL) { debug_view_source *source = m_head; m_head = source->m_next; auto_free(machine(), source); } // reset the tail pointer and index m_tail = NULL; m_count = 0; } //------------------------------------------------- // append - add a view_source to the end of the // list //------------------------------------------------- void debug_view_source_list::append(debug_view_source &source) { // set the next and index values source.m_next = NULL; // append to the end if (m_tail == NULL) m_head = m_tail = &source; else m_tail->m_next = &source; m_tail = &source; m_count++; } //------------------------------------------------- // match_device - find the first view that // matches the given device //------------------------------------------------- const debug_view_source *debug_view_source_list::match_device(device_t *device) const { for (debug_view_source *source = m_head; source != NULL; source = source->m_next) if (device == source->m_device) return source; return m_head; } //************************************************************************** // DEBUG VIEW //************************************************************************** //------------------------------------------------- // debug_view - constructor //------------------------------------------------- debug_view::debug_view(running_machine &machine, debug_view_type type, debug_view_osd_update_func osdupdate, void *osdprivate) : m_next(NULL), m_type(type), m_source(NULL), m_source_list(machine), m_osdupdate(osdupdate), m_osdprivate(osdprivate), m_visible(10,10), m_total(10,10), m_topleft(0,0), m_cursor(0,0), m_supports_cursor(false), m_cursor_visible(false), m_recompute(true), m_update_level(0), m_update_pending(true), m_osd_update_pending(true), m_viewdata(NULL), m_viewdata_size(0), m_machine(machine) { // allocate memory for the buffer m_viewdata_size = m_visible.y * m_visible.x; m_viewdata = auto_alloc_array(machine, debug_view_char, m_viewdata_size); } //------------------------------------------------- // ~debug_view - destructor //------------------------------------------------- debug_view::~debug_view() { } //------------------------------------------------- // end_update - bracket a sequence of changes so // that only one update occurs //------------------------------------------------- void debug_view::end_update() { /* if we hit zero, call the update function */ if (m_update_level == 1) { while (m_update_pending) { // no longer pending, but flag for the OSD m_update_pending = false; m_osd_update_pending = true; // resize the viewdata if needed int size = m_visible.x * m_visible.y; if (size > m_viewdata_size) { m_viewdata_size = size; auto_free(machine(), m_viewdata); m_viewdata = auto_alloc_array(machine(), debug_view_char, m_viewdata_size); } // update the view view_update(); } } // decrement the level m_update_level--; } //------------------------------------------------- // flush_osd_updates - notify the OSD of any // pending updates //------------------------------------------------- void debug_view::flush_osd_updates() { if (m_osd_update_pending && m_osdupdate != NULL) (*m_osdupdate)(*this, m_osdprivate); m_osd_update_pending = false; } //------------------------------------------------- // set_visible_size - set the visible size in // rows and columns //-------------------------------------------------*/ void debug_view::set_visible_size(debug_view_xy size) { if (size.x != m_visible.x || size.y != m_visible.y) { begin_update(); m_visible = size; m_update_pending = true; view_notify(VIEW_NOTIFY_VISIBLE_CHANGED); end_update(); } } //------------------------------------------------- // set_visible_position - set the top left // position of the visible area in rows and // columns //------------------------------------------------- void debug_view::set_visible_position(debug_view_xy pos) { if (pos.x != m_topleft.x || pos.y != m_topleft.y) { begin_update(); m_topleft = pos; m_update_pending = true; view_notify(VIEW_NOTIFY_VISIBLE_CHANGED); end_update(); } } //------------------------------------------------- // set_cursor_position - set the current cursor // position as a row and column //------------------------------------------------- void debug_view::set_cursor_position(debug_view_xy pos) { if (pos.x != m_cursor.x || pos.y != m_cursor.y) { begin_update(); m_cursor = pos; m_update_pending = true; view_notify(VIEW_NOTIFY_CURSOR_CHANGED); end_update(); } } //------------------------------------------------- // set_cursor_visible - set the visible state of // the cursor //------------------------------------------------- void debug_view::set_cursor_visible(bool visible) { if (visible != m_cursor_visible) { begin_update(); m_cursor_visible = visible; m_update_pending = true; view_notify(VIEW_NOTIFY_CURSOR_CHANGED); end_update(); } } //------------------------------------------------- // set_subview - set the current subview //------------------------------------------------- void debug_view::set_source(const debug_view_source &source) { if (&source != m_source) { begin_update(); m_source = &source; m_update_pending = true; view_notify(VIEW_NOTIFY_SOURCE_CHANGED); end_update(); } } //------------------------------------------------- // adjust_visible_x_for_cursor - adjust a view's // visible X position to ensure the cursor is // visible //------------------------------------------------- void debug_view::adjust_visible_x_for_cursor() { if (m_cursor.x < m_topleft.x) m_topleft.x = m_cursor.x; else if (m_cursor.x >= m_topleft.x + m_visible.x - 1) m_topleft.x = m_cursor.x - m_visible.x + 2; } //------------------------------------------------- // adjust_visible_y_for_cursor - adjust a view's // visible Y position to ensure the cursor is // visible //------------------------------------------------- void debug_view::adjust_visible_y_for_cursor() { if (m_cursor.y < m_topleft.y) m_topleft.y = m_cursor.y; else if (m_cursor.y >= m_topleft.y + m_visible.y - 1) m_topleft.y = m_cursor.y - m_visible.y + 2; } //------------------------------------------------- // view_notify - handle notification of updates //------------------------------------------------- void debug_view::view_notify(debug_view_notification type) { // default does nothing } //------------------------------------------------- // view_char - handle a character typed within // the current view //------------------------------------------------- void debug_view::view_char(int chval) { // default does nothing } //------------------------------------------------- // view_click - handle a mouse click within the // current view //------------------------------------------------- void debug_view::view_click(const int button, const debug_view_xy& pos) { // default does nothing } //************************************************************************** // DEBUG VIEW MANAGER //************************************************************************** //------------------------------------------------- // debug_view_manager - constructor //------------------------------------------------- debug_view_manager::debug_view_manager(running_machine &machine) : m_machine(machine), m_viewlist(NULL) { } //------------------------------------------------- // ~debug_view_manager - destructor //------------------------------------------------- debug_view_manager::~debug_view_manager() { while (m_viewlist != NULL) { debug_view *oldhead = m_viewlist; m_viewlist = oldhead->m_next; auto_free(machine(), oldhead); } } //------------------------------------------------- // alloc_view - create a new view //------------------------------------------------- debug_view *debug_view_manager::alloc_view(debug_view_type type, debug_view_osd_update_func osdupdate, void *osdprivate) { switch (type) { case DVT_CONSOLE: return append(auto_alloc(machine(), debug_view_console(machine(), osdupdate, osdprivate))); case DVT_STATE: return append(auto_alloc(machine(), debug_view_state(machine(), osdupdate, osdprivate))); case DVT_DISASSEMBLY: return append(auto_alloc(machine(), debug_view_disasm(machine(), osdupdate, osdprivate))); case DVT_MEMORY: return append(auto_alloc(machine(), debug_view_memory(machine(), osdupdate, osdprivate))); case DVT_LOG: return append(auto_alloc(machine(), debug_view_log(machine(), osdupdate, osdprivate))); case DVT_TIMERS: // return append(auto_alloc(machine(), debug_view_timers(machine(), osdupdate, osdprivate))); case DVT_ALLOCS: // return append(auto_alloc(machine(), debug_view_allocs(machine(), osdupdate, osdprivate))); default: fatalerror("Attempt to create invalid debug view type %d\n", type); } return NULL; } //------------------------------------------------- // free_view - free a view //------------------------------------------------- void debug_view_manager::free_view(debug_view &view) { // free us but only if we're in the list for (debug_view **viewptr = &m_viewlist; *viewptr != NULL; viewptr = &(*viewptr)->m_next) if (*viewptr == &view) { *viewptr = view.m_next; auto_free(machine(), &view); break; } } //------------------------------------------------- // update_all - force all views to refresh //------------------------------------------------- void debug_view_manager::update_all(debug_view_type type) { // loop over each view and force an update for (debug_view *view = m_viewlist; view != NULL; view = view->next()) if (type == DVT_NONE || type == view->type()) view->force_update(); } //------------------------------------------------- // flush_osd_updates - flush all pending OSD // updates //------------------------------------------------- void debug_view_manager::flush_osd_updates() { for (debug_view *view = m_viewlist; view != NULL; view = view->m_next) view->flush_osd_updates(); } //------------------------------------------------- // append - append a view to the end of our list //------------------------------------------------- debug_view *debug_view_manager::append(debug_view *view) { debug_view **viewptr; for (viewptr = &m_viewlist; *viewptr != NULL; viewptr = &(*viewptr)->m_next) ; *viewptr = view; return view; } //************************************************************************** // DEBUG VIEW EXPRESSION //************************************************************************** //------------------------------------------------- // debug_view_expression - constructor //------------------------------------------------- debug_view_expression::debug_view_expression(running_machine &machine) : m_machine(machine), m_dirty(true), m_result(0), m_parsed(debug_cpu_get_global_symtable(machine)), m_string("0") { } //------------------------------------------------- // ~debug_view_expression - destructor //------------------------------------------------- debug_view_expression::~debug_view_expression() { } //------------------------------------------------- // set_context - set the context for the // expression //------------------------------------------------- void debug_view_expression::set_context(symbol_table *context) { m_parsed.set_symbols((context != NULL) ? context : debug_cpu_get_global_symtable(machine())); m_dirty = true; } //------------------------------------------------- // recompute - recompute the value of an // expression //------------------------------------------------- bool debug_view_expression::recompute() { bool changed = m_dirty; // if dirty, re-evaluate if (m_dirty) { astring oldstring(m_parsed.original_string()); try { m_parsed.parse(m_string); } catch (expression_error &) { m_parsed.parse(oldstring); } } // if we have a parsed expression, evalute it if (!m_parsed.is_empty()) { // recompute the value of the expression try { UINT64 newresult = m_parsed.execute(); if (newresult != m_result) { m_result = newresult; changed = true; } } catch (expression_error &) { } } // expression no longer dirty by definition m_dirty = false; return changed; }