Bochs/bochs/gui/paramtree.cc
Volker Ruppert 0a6274c2af Fixed bx_shadow_bool_c method set() to make it work with initial value "1".
This fixes the floppy malfunction after restore and maybe other issues. The
buggy code failed to clear the DMA controller mask bits and the floppy DMA
requests never arrived at the CPU.
2014-05-13 21:10:31 +00:00

1125 lines
28 KiB
C++

/////////////////////////////////////////////////////////////////////////
// $Id$
/////////////////////////////////////////////////////////////////////////
//
// Copyright (C) 2010-2014 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
//
/////////////////////////////////////////////////////////////////////////
#include "bochs.h"
#include "paramtree.h"
/////////////////////////////////////////////////////////////////////////
// define methods of bx_param_* and family
/////////////////////////////////////////////////////////////////////////
extern bx_simulator_interface_c *SIM;
extern logfunctions *siminterface_log;
extern bx_list_c *root_param;
#define LOG_THIS siminterface_log->
const char* bx_param_c::default_text_format = NULL;
bx_param_c::bx_param_c(Bit32u id, const char *param_name, const char *param_desc)
: bx_object_c(id),
parent(NULL),
description(NULL),
label(NULL),
ask_format(NULL),
group_name(NULL)
{
set_type(BXT_PARAM);
this->name = new char[strlen(param_name)+1];
strcpy(this->name, param_name);
set_description(param_desc);
this->text_format = default_text_format;
this->long_text_format = default_text_format;
this->runtime_param = 0;
this->enabled = 1;
this->options = 0;
// dependent_list must be initialized before the set(),
// because set calls update_dependents().
dependent_list = NULL;
}
bx_param_c::bx_param_c(Bit32u id, const char *param_name, const char *param_label, const char *param_desc)
: bx_object_c(id),
parent(NULL),
description(NULL),
label(NULL),
ask_format(NULL),
group_name(NULL)
{
set_type(BXT_PARAM);
this->name = new char[strlen(param_name)+1];
strcpy(this->name, param_name);
set_description(param_desc);
set_label(param_label);
this->text_format = default_text_format;
this->long_text_format = default_text_format;
this->runtime_param = 0;
this->enabled = 1;
this->options = 0;
// dependent_list must be initialized before the set(),
// because set calls update_dependents().
dependent_list = NULL;
}
bx_param_c::~bx_param_c()
{
delete [] name;
delete [] label;
delete [] description;
delete [] ask_format;
delete [] group_name;
if (dependent_list) delete dependent_list;
}
void bx_param_c::set_description(const char *text)
{
delete [] this->description;
if (text) {
this->description = new char[strlen(text)+1];
strcpy(this->description, text);
} else {
this->description = NULL;
}
}
void bx_param_c::set_label(const char *text)
{
delete [] label;
if (text) {
label = new char[strlen(text)+1];
strcpy(label, text);
} else {
label = NULL;
}
}
void bx_param_c::set_ask_format(const char *format)
{
delete [] ask_format;
if (format) {
ask_format = new char[strlen(format)+1];
strcpy(ask_format, format);
} else {
ask_format = NULL;
}
}
void bx_param_c::set_group(const char *group)
{
delete [] group_name;
if (group) {
group_name = new char[strlen(group)+1];
strcpy(group_name, group);
} else {
group_name = NULL;
}
}
int bx_param_c::get_param_path(char *path_out, int maxlen)
{
if ((get_parent() == NULL) || (get_parent() == root_param)) {
// Start with an empty string.
// Never print the name of the root param.
path_out[0] = 0;
} else {
// build path of the parent, add a period, add path of this node
if (get_parent()->get_param_path(path_out, maxlen) > 0) {
strncat(path_out, ".", maxlen);
}
}
strncat(path_out, name, maxlen);
return strlen(path_out);
}
const char* bx_param_c::set_default_format(const char *f)
{
const char *old = default_text_format;
default_text_format = f;
return old;
}
bx_param_num_c::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)
: bx_param_c(SIM->gen_param_id(), name, label, description)
{
set_type(BXT_PARAM_NUM);
this->min = min;
this->max = max;
this->initial_val = initial_val;
this->val.number = initial_val;
this->handler = NULL;
this->save_handler = NULL;
this->restore_handler = NULL;
this->enable_handler = NULL;
this->base = default_base;
this->is_shadow = is_shadow;
if (!is_shadow) {
set(initial_val);
}
if (parent) {
BX_ASSERT(parent->get_type() == BXT_LIST);
this->parent = (bx_list_c *)parent;
this->parent->add(this);
}
}
Bit32u bx_param_num_c::default_base = BASE_DEC;
Bit32u bx_param_num_c::set_default_base(Bit32u val)
{
Bit32u old = default_base;
default_base = val;
return old;
}
void bx_param_num_c::set_handler(param_event_handler handler)
{
this->handler = handler;
// now that there's a handler, call set once to run the handler immediately
//set (get ());
}
void bx_param_num_c::set_sr_handlers(void *devptr, param_save_handler save, param_restore_handler restore)
{
sr_devptr = devptr;
save_handler = save;
restore_handler = restore;
}
void bx_param_num_c::set_dependent_list(bx_list_c *l)
{
dependent_list = l;
update_dependents();
}
Bit64s bx_param_num_c::get64()
{
if (save_handler) {
return (*save_handler)(sr_devptr, this);
}
if (handler) {
// the handler can decide what value to return and/or do some side effect
return (*handler)(this, 0, val.number);
} else {
// just return the value
return val.number;
}
}
void bx_param_num_c::set(Bit64s newval)
{
if (handler) {
// the handler can override the new value and/or perform some side effect
val.number = newval;
(*handler)(this, 1, newval);
} else {
// just set the value. This code does not check max/min.
val.number = newval;
}
if (restore_handler) {
val.number = newval;
(*restore_handler)(sr_devptr, this, newval);
}
if ((val.number < min || val.number > max) && (Bit64u)max != BX_MAX_BIT64U)
BX_PANIC(("numerical parameter '%s' was set to " FMT_LL "d, which is out of range " FMT_LL "d to " FMT_LL "d", get_name (), val.number, min, max));
if (dependent_list != NULL) update_dependents();
}
void bx_param_num_c::set_range(Bit64u min, Bit64u max)
{
this->min = min;
this->max = max;
}
void bx_param_num_c::set_initial_val(Bit64s initial_val)
{
this->val.number = this->initial_val = initial_val;
}
void bx_param_num_c::update_dependents()
{
if (dependent_list) {
int en = val.number && enabled;
for (int i=0; i<dependent_list->get_size(); i++) {
bx_param_c *param = dependent_list->get(i);
if (param != this)
param->set_enabled(en);
}
}
}
void bx_param_num_c::set_enabled(int en)
{
// The enable handler may wish to allow/disallow the action
if (enable_handler) {
en = (*enable_handler)(this, en);
}
bx_param_c::set_enabled(en);
update_dependents();
}
// Signed 64 bit
bx_shadow_num_c::bx_shadow_num_c(bx_param_c *parent,
const char *name,
Bit64s *ptr_to_real_val,
int base,
Bit8u highbit,
Bit8u lowbit)
: bx_param_num_c(parent, name, NULL, NULL, BX_MIN_BIT64S, BX_MAX_BIT64S, *ptr_to_real_val, 1)
{
this->varsize = 64;
this->lowbit = lowbit;
this->mask = ((BX_MAX_BIT64S >> (63 - (highbit - lowbit))) << lowbit);
val.p64bit = ptr_to_real_val;
if (base == BASE_HEX) {
this->base = base;
this->text_format = "0x"FMT_LL"x";
}
}
// Unsigned 64 bit
bx_shadow_num_c::bx_shadow_num_c(bx_param_c *parent,
const char *name,
Bit64u *ptr_to_real_val,
int base,
Bit8u highbit,
Bit8u lowbit)
: bx_param_num_c(parent, name, NULL, NULL, BX_MIN_BIT64U, BX_MAX_BIT64U, *ptr_to_real_val, 1)
{
this->varsize = 64;
this->lowbit = lowbit;
this->mask = ((BX_MAX_BIT64U >> (63 - (highbit - lowbit))) << lowbit);
val.p64bit = (Bit64s*) ptr_to_real_val;
if (base == BASE_HEX) {
this->base = base;
this->text_format = "0x"FMT_LL"x";
}
}
// Signed 32 bit
bx_shadow_num_c::bx_shadow_num_c(bx_param_c *parent,
const char *name,
Bit32s *ptr_to_real_val,
int base,
Bit8u highbit,
Bit8u lowbit)
: bx_param_num_c(parent, name, NULL, NULL, BX_MIN_BIT32S, BX_MAX_BIT32S, *ptr_to_real_val, 1)
{
this->varsize = 32;
this->lowbit = lowbit;
this->mask = ((BX_MAX_BIT32S >> (31 - (highbit - lowbit))) << lowbit);
val.p32bit = ptr_to_real_val;
if (base == BASE_HEX) {
this->base = base;
this->text_format = "0x%08x";
}
}
// Unsigned 32 bit
bx_shadow_num_c::bx_shadow_num_c(bx_param_c *parent,
const char *name,
Bit32u *ptr_to_real_val,
int base,
Bit8u highbit,
Bit8u lowbit)
: bx_param_num_c(parent, name, NULL, NULL, BX_MIN_BIT32U, BX_MAX_BIT32U, *ptr_to_real_val, 1)
{
this->varsize = 32;
this->lowbit = lowbit;
this->mask = ((BX_MAX_BIT32U >> (31 - (highbit - lowbit))) << lowbit);
val.p32bit = (Bit32s*) ptr_to_real_val;
if (base == BASE_HEX) {
this->base = base;
this->text_format = "0x%08x";
}
}
// Signed 16 bit
bx_shadow_num_c::bx_shadow_num_c(bx_param_c *parent,
const char *name,
Bit16s *ptr_to_real_val,
int base,
Bit8u highbit,
Bit8u lowbit)
: bx_param_num_c(parent, name, NULL, NULL, BX_MIN_BIT16S, BX_MAX_BIT16S, *ptr_to_real_val, 1)
{
this->varsize = 16;
this->lowbit = lowbit;
this->mask = ((BX_MAX_BIT16S >> (15 - (highbit - lowbit))) << lowbit);
val.p16bit = ptr_to_real_val;
if (base == BASE_HEX) {
this->base = base;
this->text_format = "0x%04x";
}
}
// Unsigned 16 bit
bx_shadow_num_c::bx_shadow_num_c(bx_param_c *parent,
const char *name,
Bit16u *ptr_to_real_val,
int base,
Bit8u highbit,
Bit8u lowbit)
: bx_param_num_c(parent, name, NULL, NULL, BX_MIN_BIT16U, BX_MAX_BIT16U, *ptr_to_real_val, 1)
{
this->varsize = 16;
this->lowbit = lowbit;
this->mask = ((BX_MAX_BIT16U >> (15 - (highbit - lowbit))) << lowbit);
val.p16bit = (Bit16s*) ptr_to_real_val;
if (base == BASE_HEX) {
this->base = base;
this->text_format = "0x%04x";
}
}
// Signed 8 bit
bx_shadow_num_c::bx_shadow_num_c(bx_param_c *parent,
const char *name,
Bit8s *ptr_to_real_val,
int base,
Bit8u highbit,
Bit8u lowbit)
: bx_param_num_c(parent, name, NULL, NULL, BX_MIN_BIT8S, BX_MAX_BIT8S, *ptr_to_real_val, 1)
{
this->varsize = 8;
this->lowbit = lowbit;
this->mask = ((BX_MAX_BIT8S >> (7 - (highbit - lowbit))) << lowbit);
this->mask = (1 << (highbit - lowbit)) - 1;
val.p8bit = ptr_to_real_val;
if (base == BASE_HEX) {
this->base = base;
this->text_format = "0x%02x";
}
}
// Unsigned 8 bit
bx_shadow_num_c::bx_shadow_num_c(bx_param_c *parent,
const char *name,
Bit8u *ptr_to_real_val,
int base,
Bit8u highbit,
Bit8u lowbit)
: bx_param_num_c(parent, name, NULL, NULL, BX_MIN_BIT8U, BX_MAX_BIT8U, *ptr_to_real_val, 1)
{
this->varsize = 8;
this->lowbit = lowbit;
this->mask = ((BX_MAX_BIT8U >> (7 - (highbit - lowbit))) << lowbit);
val.p8bit = (Bit8s*) ptr_to_real_val;
if (base == BASE_HEX) {
this->base = base;
this->text_format = "0x%02x";
}
}
Bit64s bx_shadow_num_c::get64()
{
Bit64u current = 0;
switch (varsize) {
case 8: current = *(val.p8bit); break;
case 16: current = *(val.p16bit); break;
case 32: current = *(val.p32bit); break;
case 64: current = *(val.p64bit); break;
default: BX_PANIC(("unsupported varsize %d", varsize));
}
current = (current >> lowbit) & mask;
if (handler) {
// the handler can decide what value to return and/or do some side effect
return (*handler)(this, 0, current) & mask;
} else {
// just return the value
return current;
}
}
void bx_shadow_num_c::set(Bit64s newval)
{
Bit64u tmp = 0;
if (((newval < min) || (newval > max)) && (min != BX_MIN_BIT64S) && ((Bit64u)max != BX_MAX_BIT64U))
BX_PANIC(("numerical parameter %s was set to " FMT_LL "d, which is out of range " FMT_LL "d to " FMT_LL "d", get_name (), newval, min, max));
switch (varsize) {
case 8:
tmp = *(val.p8bit) & ~(mask << lowbit);
tmp |= (newval & mask) << lowbit;
*(val.p8bit) = (Bit8s)tmp;
break;
case 16:
tmp = *(val.p16bit) & ~(mask << lowbit);
tmp |= (newval & mask) << lowbit;
*(val.p16bit) = (Bit16s)tmp;
break;
case 32:
tmp = *(val.p32bit) & ~(mask << lowbit);
tmp |= (newval & mask) << lowbit;
*(val.p32bit) = (Bit32s)tmp;
break;
case 64:
tmp = *(val.p64bit) & ~(mask << lowbit);
tmp |= (newval & mask) << lowbit;
*(val.p64bit) = (Bit64s)tmp;
break;
default:
BX_PANIC(("unsupported varsize %d", varsize));
}
if (handler) {
// the handler can override the new value and/or perform some side effect
(*handler)(this, 1, tmp);
}
}
void bx_shadow_num_c::reset()
{
BX_PANIC(("reset not supported on bx_shadow_num_c yet"));
}
bx_param_bool_c::bx_param_bool_c(bx_param_c *parent,
const char *name,
const char *label,
const char *description,
Bit64s initial_val,
bx_bool is_shadow)
: bx_param_num_c(parent, name, label, description, 0, 1, initial_val, is_shadow)
{
set_type(BXT_PARAM_BOOL);
}
bx_shadow_bool_c::bx_shadow_bool_c(bx_param_c *parent,
const char *name,
const char *label,
bx_bool *ptr_to_real_val,
Bit8u bitnum)
: bx_param_bool_c(parent, name, label, NULL, (Bit64s) *ptr_to_real_val, 1)
{
val.pbool = ptr_to_real_val;
this->bitnum = bitnum;
}
bx_shadow_bool_c::bx_shadow_bool_c(bx_param_c *parent,
const char *name,
bx_bool *ptr_to_real_val,
Bit8u bitnum)
: bx_param_bool_c(parent, name, NULL, NULL, (Bit64s) *ptr_to_real_val, 1)
{
val.pbool = ptr_to_real_val;
this->bitnum = bitnum;
}
Bit64s bx_shadow_bool_c::get64()
{
if (handler) {
// the handler can decide what value to return and/or do some side effect
Bit64s ret = (*handler)(this, 0, (Bit64s) *(val.pbool));
return (ret>>bitnum) & 1;
} else {
// just return the value
return (*(val.pbool)) & 1;
}
}
void bx_shadow_bool_c::set(Bit64s newval)
{
// only change the bitnum bit
Bit64s mask = 1 << bitnum;
*(val.pbool) &= ~mask;
*(val.pbool) |= ((newval & 1) << bitnum);
if (handler) {
// the handler can override the new value and/or perform some side effect
(*handler)(this, 1, newval&1);
}
}
bx_param_enum_c::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)
: bx_param_num_c(parent, name, label, description, value_base, BX_MAX_BIT64S, initial_val)
{
set_type(BXT_PARAM_ENUM);
this->choices = choices;
// count number of choices, set max
const char **p = choices;
while (*p != NULL) p++;
this->min = value_base;
// now that the max is known, replace the BX_MAX_BIT64S sent to the parent
// class constructor with the real max.
this->max = value_base + (p - choices - 1);
this->deps_bitmap = NULL;
set(initial_val);
}
bx_param_enum_c::~bx_param_enum_c()
{
if (deps_bitmap != NULL) {
free(deps_bitmap);
}
}
void bx_param_enum_c::set(Bit64s val)
{
bx_param_num_c::set(val);
update_dependents();
}
int bx_param_enum_c::find_by_name(const char *string)
{
const char **p;
for (p=&choices[0]; *p; p++) {
if (!strcmp(string, *p))
return p-choices;
}
return -1;
}
bx_bool bx_param_enum_c::set_by_name(const char *string)
{
int n = find_by_name(string);
if (n<0) return 0;
set(n + min);
return 1;
}
void bx_param_enum_c::set_dependent_list(bx_list_c *l, bx_bool enable_all)
{
dependent_list = l;
deps_bitmap = (Bit64u*)malloc((size_t)(sizeof(Bit64u) * (max - min + 1)));
for (int i=0; i<(max-min+1); i++) {
if (enable_all) {
deps_bitmap[i] = (1 << (l->get_size())) - 1;
} else {
deps_bitmap[i] = 0;
}
}
update_dependents();
}
void bx_param_enum_c::set_dependent_bitmap(Bit64s value, Bit64u bitmap)
{
if (deps_bitmap != NULL) {
deps_bitmap[value - min] = bitmap;
}
update_dependents();
}
Bit64u bx_param_enum_c::get_dependent_bitmap(Bit64s value)
{
if (deps_bitmap != NULL) {
return deps_bitmap[value - min];
}
return 0;
}
void bx_param_enum_c::update_dependents()
{
if ((dependent_list != NULL) && (deps_bitmap != NULL)) {
Bit64u en_bmap = deps_bitmap[val.number - min];
Bit64u mask = 0x1;
for (int i=0; i<dependent_list->get_size(); i++) {
int en = (en_bmap & mask) && enabled;
bx_param_c *param = dependent_list->get(i);
if (param != this)
param->set_enabled(en);
mask <<= 1;
}
}
}
void bx_param_enum_c::set_enabled(int en)
{
// The enable handler may wish to allow/disallow the action
if (enable_handler) {
en = (*enable_handler)(this, en);
}
bx_param_c::set_enabled(en);
update_dependents();
}
bx_param_string_c::bx_param_string_c(bx_param_c *parent,
const char *name,
const char *label,
const char *description,
const char *initial_val,
int maxsize)
: bx_param_c(SIM->gen_param_id(), name, label, description)
{
set_type(BXT_PARAM_STRING);
int initial_val_size = strlen(initial_val) + 1;
if (maxsize < 0) {
maxsize = initial_val_size;
} else if (initial_val_size > maxsize) {
initial_val_size = maxsize;
}
this->val = new char[maxsize];
this->initial_val = new char[maxsize];
this->handler = NULL;
this->enable_handler = NULL;
this->maxsize = maxsize;
strncpy(this->val, initial_val, initial_val_size);
if (maxsize > initial_val_size)
memset(this->val + initial_val_size, 0, maxsize - initial_val_size);
strncpy(this->initial_val, initial_val, maxsize);
this->options = 0;
set(initial_val);
if (parent) {
BX_ASSERT(parent->get_type() == BXT_LIST);
this->parent = (bx_list_c *)parent;
this->parent->add(this);
}
}
bx_param_filename_c::bx_param_filename_c(bx_param_c *parent,
const char *name,
const char *label,
const char *description,
const char *initial_val,
int maxsize)
: bx_param_string_c(parent, name, label, description, initial_val, maxsize)
{
set_options(IS_FILENAME);
int len = strlen(initial_val);
if ((len > 4) && (initial_val[len - 4] == '.')) {
ext = &initial_val[len - 3];
} else {
ext = NULL;
}
}
bx_param_string_c::~bx_param_string_c()
{
if (val != NULL) delete [] val;
if (initial_val != NULL) delete [] initial_val;
}
void bx_param_string_c::reset()
{
set(initial_val);
}
void bx_param_string_c::set_handler(param_string_event_handler handler)
{
this->handler = handler;
}
void bx_param_string_c::set_enable_handler(param_enable_handler handler)
{
this->enable_handler = handler;
}
void bx_param_string_c::update_dependents()
{
if (dependent_list) {
int en = (strlen(val) > 0) && (strcmp(val, "none")) && enabled;
for (int i=0; i<dependent_list->get_size(); i++) {
bx_param_c *param = dependent_list->get(i);
if (param != this)
param->set_enabled(en);
}
}
}
void bx_param_string_c::set_enabled(int en)
{
// The enable handler may wish to allow/disallow the action
if (enable_handler) {
en = (*enable_handler)(this, en);
}
bx_param_c::set_enabled(en);
if (dependent_list != NULL) update_dependents();
}
void bx_param_string_c::set_dependent_list(bx_list_c *l)
{
dependent_list = l;
update_dependents();
}
Bit32s bx_param_string_c::get(char *buf, int len)
{
if (options & RAW_BYTES)
memcpy(buf, val, len);
else
strncpy(buf, val, len);
if (handler) {
// the handler can choose to replace the value in val/len. Also its
// return value is passed back as the return value of get.
(*handler)(this, 0, buf, buf, len);
}
return 0;
}
void bx_param_string_c::set(const char *buf)
{
char *oldval = new char[maxsize];
if (options & RAW_BYTES) {
memcpy(oldval, val, maxsize);
memcpy(val, buf, maxsize);
} else {
strncpy(oldval, val, maxsize);
oldval[maxsize - 1] = 0;
strncpy(val, buf, maxsize);
val[maxsize - 1] = 0;
}
if (handler) {
// the handler can return a different char* to be copied into the value
buf = (*handler)(this, 1, oldval, buf, -1);
}
delete [] oldval;
if (dependent_list != NULL) update_dependents();
}
bx_bool bx_param_string_c::equals(const char *buf)
{
if (options & RAW_BYTES)
return (memcmp(val, buf, maxsize) == 0);
else
return (strncmp(val, buf, maxsize) == 0);
}
void bx_param_string_c::set_initial_val(const char *buf)
{
if (options & RAW_BYTES)
memcpy(initial_val, buf, maxsize);
else
strncpy(initial_val, buf, maxsize);
set(initial_val);
}
bx_bool bx_param_string_c::isempty()
{
if (options & RAW_BYTES) {
return (memcmp(val, initial_val, maxsize) == 0);
} else {
return ((strlen(val) == 0) || !strcmp(val, "none"));
}
}
int bx_param_string_c::sprint(char *buf, int len, bx_bool dquotes)
{
char tmpbyte[4];
if (get_options() & RAW_BYTES) {
buf[0] = 0;
for (int j = 0; j < maxsize; j++) {
if (j > 0) {
tmpbyte[0] = separator;
tmpbyte[1] = 0;
strcat(buf, tmpbyte);
}
sprintf(tmpbyte, "%02x", (Bit8u)val[j]);
strcat(buf, tmpbyte);
}
} else {
if (!isempty()) {
if (dquotes) {
snprintf(buf, len, "\"%s\"", val);
} else {
snprintf(buf, len, "%s", val);
}
} else {
strcpy(buf, "none");
}
}
return strlen(buf);
}
bx_shadow_data_c::bx_shadow_data_c(bx_param_c *parent,
const char *name,
Bit8u *ptr_to_data,
Bit32u data_size)
: bx_param_c(SIM->gen_param_id(), name, "")
{
set_type(BXT_PARAM_DATA);
this->data_ptr = ptr_to_data;
this->data_size = data_size;
if (parent) {
BX_ASSERT(parent->get_type() == BXT_LIST);
this->parent = (bx_list_c *)parent;
this->parent->add(this);
}
}
bx_shadow_filedata_c::bx_shadow_filedata_c(bx_param_c *parent,
const char *name, FILE **scratch_file_ptr_ptr)
: bx_param_c(SIM->gen_param_id(), name, "")
{
set_type(BXT_PARAM_FILEDATA);
this->scratch_fpp = scratch_file_ptr_ptr;
this->save_handler = NULL;
this->restore_handler = NULL;
if (parent) {
BX_ASSERT(parent->get_type() == BXT_LIST);
this->parent = (bx_list_c *)parent;
this->parent->add(this);
}
}
// Save handler: called before file save, Restore handler: called after file restore
void bx_shadow_filedata_c::set_sr_handlers(void *devptr, filedata_save_handler save, filedata_restore_handler restore)
{
this->sr_devptr = devptr;
this->save_handler = save;
this->restore_handler = restore;
}
void bx_shadow_filedata_c::save(FILE *save_fp)
{
if (save_handler)
(*save_handler)(sr_devptr, save_fp);
}
void bx_shadow_filedata_c::restore(FILE *save_fp)
{
if (restore_handler)
(*restore_handler)(sr_devptr, save_fp);
}
bx_list_c::bx_list_c(bx_param_c *parent)
: bx_param_c(SIM->gen_param_id(), "list", "")
{
set_type(BXT_LIST);
this->size = 0;
this->list = NULL;
this->parent = NULL;
if (parent) {
BX_ASSERT(parent->get_type() == BXT_LIST);
this->parent = (bx_list_c *)parent;
this->parent->add(this);
}
init("");
}
bx_list_c::bx_list_c(bx_param_c *parent, const char *name)
: bx_param_c(SIM->gen_param_id(), name, "")
{
set_type (BXT_LIST);
this->size = 0;
this->list = NULL;
this->parent = NULL;
if (parent) {
BX_ASSERT(parent->get_type() == BXT_LIST);
this->parent = (bx_list_c *)parent;
this->parent->add(this);
}
init("");
}
bx_list_c::bx_list_c(bx_param_c *parent, const char *name, const char *title)
: bx_param_c(SIM->gen_param_id(), name, "")
{
set_type (BXT_LIST);
this->size = 0;
this->list = NULL;
this->parent = NULL;
if (parent) {
BX_ASSERT(parent->get_type() == BXT_LIST);
this->parent = (bx_list_c *)parent;
this->parent->add(this);
}
init(title);
}
bx_list_c::bx_list_c(bx_param_c *parent, const char *name, const char *title, bx_param_c **init_list)
: bx_param_c(SIM->gen_param_id(), name, "")
{
set_type(BXT_LIST);
this->size = 0;
this->list = NULL;
while (init_list[this->size] != NULL)
add(init_list[this->size]);
this->parent = NULL;
if (parent) {
BX_ASSERT(parent->get_type() == BXT_LIST);
this->parent = (bx_list_c *)parent;
this->parent->add(this);
}
init(title);
}
bx_list_c::~bx_list_c()
{
if (list != NULL) {
clear();
}
if (title != NULL) delete [] title;
}
void bx_list_c::init(const char *list_title)
{
if (list_title) {
this->title = new char[strlen(list_title)+1];
strcpy(this->title, list_title);
} else {
this->title = new char[1];
this->title[0] = 0;
}
this->options = 0;
this->choice = 1;
}
void bx_list_c::set_parent(bx_param_c *newparent)
{
if (parent) {
// if this object already had a parent, the correct thing
// to do would be to remove this object from the parent's
// list of children. Deleting children is currently
// not supported.
BX_PANIC(("bx_list_c::set_parent: changing from one parent to another is not supported"));
}
if (newparent) {
BX_ASSERT(newparent->get_type() == BXT_LIST);
parent = (bx_list_c *)newparent;
parent->add(this);
}
}
bx_list_c* bx_list_c::clone()
{
bx_list_c *newlist = new bx_list_c(NULL, name, title);
for (int i=0; i<get_size(); i++)
newlist->add(get(i));
newlist->set_options(options);
return newlist;
}
void bx_list_c::add(bx_param_c *param)
{
bx_listitem_t *item;
if ((get_by_name(param->get_name()) != NULL) && (param->get_parent() == this)) {
BX_PANIC(("parameter '%s' already exists in list '%s'", param->get_name(), this->get_name()));
return;
}
item = (bx_listitem_t*) malloc(sizeof(bx_listitem_t));
if (item == NULL) {
BX_PANIC(("bx_list_c::add(): malloc() failed"));
return;
}
item->param = param;
item->next = NULL;
if (list == NULL) {
list = item;
} else {
bx_listitem_t *temp = list;
while (temp->next)
temp = temp->next;
temp->next = item;
}
if (runtime_param) {
param->set_runtime_param(1);
}
size++;
}
bx_param_c* bx_list_c::get(int index)
{
BX_ASSERT(index >= 0 && index < size);
int i = 0;
bx_listitem_t *temp = list;
while (temp != NULL) {
if (i == index) {
return temp->param;
}
temp = temp->next;
i++;
}
return NULL;
}
bx_param_c* bx_list_c::get_by_name(const char *name)
{
bx_listitem_t *temp = list;
while (temp != NULL) {
bx_param_c *p = temp->param;
if (!stricmp(name, p->get_name())) {
return p;
}
temp = temp->next;
}
return NULL;
}
void bx_list_c::reset()
{
bx_listitem_t *temp = list;
while (temp != NULL) {
temp->param->reset();
temp = temp->next;
}
}
void bx_list_c::clear()
{
bx_listitem_t *temp = list, *next;
while (temp != NULL) {
if (temp->param->get_parent() == this) {
delete temp->param;
}
next = temp->next;
free(temp);
temp = next;
}
list = NULL;
size = 0;
}
void bx_list_c::remove(const char *name)
{
bx_listitem_t *item, *prev = NULL;
for (item = list; item; item = item->next) {
bx_param_c *p = item->param;
if (!stricmp(name, p->get_name())) {
if (p->get_parent() == this) {
delete p;
}
if (prev == NULL) {
list = item->next;
} else {
prev->next = item->next;
}
free(item);
size--;
break;
} else {
prev = item;
}
}
}
void bx_list_c::set_runtime_param(int val)
{
bx_listitem_t *item;
runtime_param = val;
if (runtime_param) {
for (item = list; item; item = item->next) {
item->param->set_runtime_param(1);
}
}
}