URL
https://opencores.org/ocsvn/ao486/ao486/trunk
Subversion Repositories ao486
[/] [ao486/] [trunk/] [bochs486/] [gui/] [paramtree.h] - Rev 2
Compare with Previous | Blame | View Log
///////////////////////////////////////////////////////////////////////// // $Id: paramtree.h 11655 2013-03-17 17:16:45Z vruppert $ ///////////////////////////////////////////////////////////////////////// // // Copyright (C) 2010-2013 The Bochs Project // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2 of the License, or (at your option) any later version. // // This library 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 // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA // ///////////////////////////////////////////////////////////////////////// #ifndef BX_PARAM_TREE_H #define BX_PARAM_TREE_H //////////////////////////////////////////////////////////////////// // parameter classes: bx_param_c and family //////////////////////////////////////////////////////////////////// // // All variables that can be configured through the CI are declared as // "parameters" or objects of type bx_param_*. There is a bx_param_* // class for each type of data that the user would need to see and // edit, e.g. integer, boolean, enum, string, filename, or list of // other parameters. The purpose of the bx_param_* class, in addition // to storing the parameter's value, is to hold the name, description, // and constraints on the value. The bx_param_* class should hold // everything that the CI would need to display the value and allow // the user to modify it. For integer parameters, the minimum and // maximum allowed value can be defined, and the base in which it // should be displayed and interpreted. For enums, the // bx_param_enum_c structure includes the list of values which the // parameter can have. // // Also, some parameter classes support get/set callback functions to // allow arbitrary code to be executed when the parameter is get/set. // An example of where this is useful: if you disable the NE2K card, // the set() handler for that parameter can tell the user interface // that the NE2K's irq, I/O address, and mac address should be // disabled (greyed out, hidden, or made inaccessible). The get/set // methods can also check if the set() value is acceptable using // whatever means and override it. // // The parameter concept is similar to the use of parameters in JavaBeans. // list of possible types for bx_param_c and descendant objects typedef enum { BXT_OBJECT = 201, BXT_PARAM, BXT_PARAM_NUM, BXT_PARAM_BOOL, BXT_PARAM_ENUM, BXT_PARAM_STRING, BXT_PARAM_DATA, BXT_PARAM_FILEDATA, BXT_LIST } bx_objtype; class bx_object_c; class bx_param_c; class bx_param_num_c; class bx_param_enum_c; class bx_param_bool_c; class bx_param_string_c; class bx_param_filename_c; class bx_list_c; class BOCHSAPI bx_object_c { private: Bit32u id; bx_objtype type; protected: void set_type(bx_objtype _type) { type = _type; } public: bx_object_c(Bit32u _id): id(_id), type(BXT_OBJECT) {} virtual ~bx_object_c() {} Bit32u get_id() const { return id; } Bit8u get_type() const { return type; } }; #define BASE_DEC 10 #define BASE_HEX 16 class BOCHSAPI bx_param_c : public bx_object_c { BOCHSAPI_CYGONLY static const char *default_text_format; protected: bx_list_c *parent; char *name; char *description; char *label; // label string for text menus and gui dialogs const char *text_format; // printf format string. %d for ints, %s for strings, etc. const char *long_text_format; // printf format string. %d for ints, %s for strings, etc. char *ask_format; // format string for asking for a new value char *group_name; // name of the group the param belongs to int runtime_param; int enabled; Bit32u options; // The dependent_list is initialized to NULL. If dependent_list is modified // to point to a bx_list_c of other parameters, the set() method of the // parameter type will enable those parameters when the enable condition is // true, and disable them it is false. bx_list_c *dependent_list; void *device; public: enum { // If set, this parameter is available in CI only. In bochsrc, it is set // indirectly from one or more other options (e.g. cpu count) CI_ONLY = (1<<31) } bx_param_opt_bits; bx_param_c(Bit32u id, const char *name, const char *description); bx_param_c(Bit32u id, const char *name, const char *label, const char *description); virtual ~bx_param_c(); bx_param_c *get_parent() { return (bx_param_c *) parent; } int get_param_path(char *path_out, int maxlen); void set_format(const char *format) {text_format = format;} const char *get_format() const {return text_format;} void set_long_format(const char *format) {long_text_format = format;} const char *get_long_format() const {return long_text_format;} void set_ask_format(const char *format); const char *get_ask_format() const {return ask_format;} void set_label(const char *text); void set_description(const char *text); const char *get_label() const {return label;} void set_runtime_param(int val) { runtime_param = val; } int get_runtime_param() { return runtime_param; } void set_group(const char *group); const char *get_group() const {return group_name;} const char *get_name() const { return name; } const char *get_description() const { return description; } int get_enabled() const { return enabled; } virtual void set_enabled(int enabled) { this->enabled = enabled; } virtual void reset() {} int getint() const {return -1;} static const char* set_default_format(const char *f); static const char *get_default_format() { return default_text_format; } bx_list_c *get_dependent_list() { return dependent_list; } void set_options(Bit32u options) { this->options = options; } Bit32u get_options() const { return options; } void set_device_param(void *dev) { device = dev; } void *get_device_param() { return device; } #if BX_USE_TEXTCONFIG virtual void text_print(FILE *fp) {} virtual int text_ask(FILE *fpin, FILE *fpout) {return -1;} #endif }; typedef Bit64s (*param_event_handler)(class bx_param_c *, int set, Bit64s val); typedef Bit64s (*param_save_handler)(void *devptr, class bx_param_c *); typedef void (*param_restore_handler)(void *devptr, class bx_param_c *, Bit64s val); typedef int (*param_enable_handler)(class bx_param_c *, int en); class BOCHSAPI bx_param_num_c : public bx_param_c { BOCHSAPI_CYGONLY static Bit32u default_base; void update_dependents(); protected: Bit64s min, max, initial_val; union _uval_ { Bit64s number; // used by bx_param_num_c Bit64s *p64bit; // used by bx_shadow_num_c Bit32s *p32bit; // used by bx_shadow_num_c Bit16s *p16bit; // used by bx_shadow_num_c Bit8s *p8bit; // used by bx_shadow_num_c bx_bool *pbool; // used by bx_shadow_bool_c } val; param_event_handler handler; void *sr_devptr; param_save_handler save_handler; param_restore_handler restore_handler; param_enable_handler enable_handler; int base; bx_bool is_shadow; public: enum { // When a bx_param_num_c is displayed in dialog, USE_SPIN_CONTROL controls // whether a spin control should be used instead of a simple text control. USE_SPIN_CONTROL = (1<<0) } bx_numopt_bits; bx_param_num_c(bx_param_c *parent, const char *name, const char *label, const char *description, Bit64s min, Bit64s max, Bit64s initial_val, bx_bool is_shadow = 0); virtual void reset() { val.number = initial_val; } void set_handler(param_event_handler handler); void set_sr_handlers(void *devptr, param_save_handler save, param_restore_handler restore); void set_enable_handler(param_enable_handler handler) { enable_handler = handler; } void set_dependent_list(bx_list_c *l); virtual void set_enabled(int enabled); virtual Bit32s get() { return (Bit32s) get64(); } virtual Bit64s get64(); virtual void set(Bit64s val); void set_base(int base) { this->base = base; } void set_initial_val(Bit64s initial_val); int get_base() const { return base; } void set_range(Bit64u min, Bit64u max); Bit64s get_min() { return min; } Bit64s get_max() { return max; } static Bit32u set_default_base(Bit32u val); static Bit32u get_default_base() { return default_base; } #if BX_USE_TEXTCONFIG virtual void text_print(FILE *fp); virtual int text_ask(FILE *fpin, FILE *fpout); #endif }; // a bx_shadow_num_c is like a bx_param_num_c except that it doesn't // store the actual value with its data. Instead, it uses val.p32bit // to keep a pointer to the actual data. This is used to register // existing variables as parameters, without having to access it via // set/get methods. class BOCHSAPI bx_shadow_num_c : public bx_param_num_c { Bit8u varsize; // must be 64, 32, 16, or 8 Bit8u lowbit; // range of bits associated with this param Bit64u mask; // mask is ANDed with value before it is returned from get public: bx_shadow_num_c(bx_param_c *parent, const char *name, Bit64s *ptr_to_real_val, int base = BASE_DEC, Bit8u highbit = 63, Bit8u lowbit = 0); bx_shadow_num_c(bx_param_c *parent, const char *name, Bit64u *ptr_to_real_val, int base = BASE_DEC, Bit8u highbit = 63, Bit8u lowbit = 0); bx_shadow_num_c(bx_param_c *parent, const char *name, Bit32s *ptr_to_real_val, int base = BASE_DEC, Bit8u highbit = 31, Bit8u lowbit = 0); bx_shadow_num_c(bx_param_c *parent, const char *name, Bit32u *ptr_to_real_val, int base = BASE_DEC, Bit8u highbit = 31, Bit8u lowbit = 0); bx_shadow_num_c(bx_param_c *parent, const char *name, Bit16s *ptr_to_real_val, int base = BASE_DEC, Bit8u highbit = 15, Bit8u lowbit = 0); bx_shadow_num_c(bx_param_c *parent, const char *name, Bit16u *ptr_to_real_val, int base = BASE_DEC, Bit8u highbit = 15, Bit8u lowbit = 0); bx_shadow_num_c(bx_param_c *parent, const char *name, Bit8s *ptr_to_real_val, int base = BASE_DEC, Bit8u highbit = 7, Bit8u lowbit = 0); bx_shadow_num_c(bx_param_c *parent, const char *name, Bit8u *ptr_to_real_val, int base = BASE_DEC, Bit8u highbit = 7, Bit8u lowbit = 0); virtual Bit64s get64(); virtual void set(Bit64s val); virtual void reset(); }; class BOCHSAPI bx_param_bool_c : public bx_param_num_c { // many boolean variables are used to enable/disable modules. In the // user interface, the enable variable should enable/disable all the // other parameters associated with that module. public: bx_param_bool_c(bx_param_c *parent, const char *name, const char *label, const char *description, Bit64s initial_val, bx_bool is_shadow = 0); #if BX_USE_TEXTCONFIG virtual void text_print(FILE *fp); virtual int text_ask(FILE *fpin, FILE *fpout); #endif }; // a bx_shadow_bool_c is a shadow param based on bx_param_bool_c. class BOCHSAPI bx_shadow_bool_c : public bx_param_bool_c { // each bit of a bitfield can be a separate value. bitnum tells which // bit is used. get/set will only modify that bit. Bit8u bitnum; public: bx_shadow_bool_c(bx_param_c *parent, const char *name, const char *label, bx_bool *ptr_to_real_val, Bit8u bitnum = 0); bx_shadow_bool_c(bx_param_c *parent, const char *name, bx_bool *ptr_to_real_val, Bit8u bitnum = 0); virtual Bit64s get64(); virtual void set(Bit64s val); }; class BOCHSAPI bx_param_enum_c : public bx_param_num_c { const char **choices; Bit64u *deps_bitmap; void update_dependents(); public: bx_param_enum_c(bx_param_c *parent, const char *name, const char *label, const char *description, const char **choices, Bit64s initial_val, Bit64s value_base = 0); virtual ~bx_param_enum_c(); const char *get_choice(int n) { return choices[n]; } const char *get_selected() { return choices[val.number - min]; } int find_by_name(const char *string); virtual void set(Bit64s val); bx_bool set_by_name(const char *string); void set_dependent_list(bx_list_c *l, bx_bool enable_all); void set_dependent_bitmap(Bit64s value, Bit64u bitmap); Bit64u get_dependent_bitmap(Bit64s value); virtual void set_enabled(int enabled); #if BX_USE_TEXTCONFIG virtual void text_print(FILE *fp); virtual int text_ask(FILE *fpin, FILE *fpout); #endif }; typedef const char* (*param_string_event_handler)(class bx_param_string_c *, int set, const char *oldval, const char *newval, int maxlen); class BOCHSAPI bx_param_string_c : public bx_param_c { int maxsize; char *val, *initial_val; param_string_event_handler handler; param_enable_handler enable_handler; char separator; void update_dependents(); public: enum { RAW_BYTES = 1, // use binary text editor, like MAC addr IS_FILENAME = 2, // 1=yes it's a filename, 0=not a filename. // Some guis have a file browser. This // bit suggests that they use it. SAVE_FILE_DIALOG = 4, // Use save dialog opposed to open file dialog SELECT_FOLDER_DLG = 8 // Use folder selection dialog } bx_string_opt_bits; bx_param_string_c(bx_param_c *parent, const char *name, const char *label, const char *description, const char *initial_val, int maxsize=-1); virtual ~bx_param_string_c(); virtual void reset(); void set_handler(param_string_event_handler handler); void set_enable_handler(param_enable_handler handler); virtual void set_enabled(int enabled); void set_dependent_list(bx_list_c *l); Bit32s get(char *buf, int len); char *getptr() {return val; } const char *getptr() const {return val; } void set(const char *buf); bx_bool equals(const char *buf); void set_separator(char sep) {separator = sep; } char get_separator() const {return separator; } int get_maxsize() const {return maxsize; } void set_initial_val(const char *buf); bx_bool isempty(); int sprint(char *buf, int buflen, bx_bool dquotes); #if BX_USE_TEXTCONFIG virtual void text_print(FILE *fp); virtual int text_ask(FILE *fpin, FILE *fpout); #endif }; // Declare a filename class. It is identical to a string, except that // it initializes the options differently. This is just a shortcut // for declaring a string param and setting the options with IS_FILENAME. class BOCHSAPI bx_param_filename_c : public bx_param_string_c { const char *ext; public: bx_param_filename_c(bx_param_c *parent, const char *name, const char *label, const char *description, const char *initial_val, int maxsize=-1); const char *get_extension() const {return ext;} void set_extension(const char *newext) {ext = newext;} }; class BOCHSAPI bx_shadow_data_c : public bx_param_c { Bit32u data_size; Bit8u *data_ptr; public: bx_shadow_data_c(bx_param_c *parent, const char *name, Bit8u *ptr_to_data, Bit32u data_size); Bit8u *getptr() {return data_ptr;} Bit32u get_size() const {return data_size;} }; typedef void (*filedata_save_handler)(void *devptr, FILE *save_fp); typedef void (*filedata_restore_handler)(void *devptr, FILE *save_fp); class BOCHSAPI bx_shadow_filedata_c : public bx_param_c { protected: FILE **scratch_fpp; // Point to scratch file used for backing store void *sr_devptr; filedata_save_handler save_handler; filedata_restore_handler restore_handler; public: bx_shadow_filedata_c(bx_param_c *parent, const char *name, FILE **scratch_file_ptr_ptr); void set_sr_handlers(void *devptr, filedata_save_handler save, filedata_restore_handler restore); FILE **get_fpp() {return scratch_fpp;} void save(FILE *save_file); void restore(FILE *save_file); }; typedef struct _bx_listitem_t { bx_param_c *param; struct _bx_listitem_t *next; } bx_listitem_t; class BOCHSAPI bx_list_c : public bx_param_c { protected: // chained list of bx_listitem_t bx_listitem_t *list; int size; // for a menu, the value of choice before the call to "ask" is default. // After ask, choice holds the value that the user chose. Choice defaults // to 1 in the constructor. Bit32u choice; // type Bit32u is compatible with ask_uint // title of the menu or series char *title; void init(const char *list_title); public: enum { // When a bx_list_c is displayed as a menu, SHOW_PARENT controls whether or // not the menu shows a "Return to parent menu" choice or not. SHOW_PARENT = (1<<0), // Some lists are best displayed shown as menus, others as a series of // related questions. This bit suggests to the CI that the series of // questions format is preferred. SERIES_ASK = (1<<1), // When a bx_list_c is displayed in a dialog, USE_TAB_WINDOW suggests // to the CI that each item in the list should be shown as a separate // tab. This would be most appropriate when each item is another list // of parameters. USE_TAB_WINDOW = (1<<2), // When a bx_list_c is displayed in a dialog, the list name is used as the // label of the group box if USE_BOX_TITLE is set. This is only necessary if // more than one list appears in a dialog box. USE_BOX_TITLE = (1<<3), // When a bx_list_c is displayed as a menu, SHOW_GROUP_NAME controls whether // or not the name of group the item belongs to is added to the name of the // item (used in the runtime menu). SHOW_GROUP_NAME = (1<<4), // When a bx_list_c is displayed in a dialog, USE_SCROLL_WINDOW suggests // to the CI that the list items should be displayed in a scrollable dialog // window. Large lists can make the dialog unusable and using this flag // can force the CI to limit the dialog height with all items accessible. USE_SCROLL_WINDOW = (1<<5) } bx_listopt_bits; bx_list_c(bx_param_c *parent); bx_list_c(bx_param_c *parent, const char *name); bx_list_c(bx_param_c *parent, const char *name, const char *title); bx_list_c(bx_param_c *parent, const char *name, const char *title, bx_param_c **init_list); virtual ~bx_list_c(); bx_list_c *clone(); void add(bx_param_c *param); bx_param_c *get(int index); bx_param_c *get_by_name(const char *name); int get_size() const { return size; } int get_choice() const { return choice; } void set_choice(int new_choice) { choice = new_choice; } char *get_title() { return title; } void set_parent(bx_param_c *newparent); bx_param_c *get_parent() { return parent; } virtual void reset(); virtual void clear(); virtual void remove(const char *name); #if BX_USE_TEXTCONFIG virtual void text_print(FILE *); virtual int text_ask(FILE *fpin, FILE *fpout); #endif }; #endif