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meta content="text/html; charset=ISO-8859-2" http-equiv="content-type">
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body style="background-color: white;">
<
h2>General commands of <
i>μCsim<
/i><
/h2>
<
h3><
a name="conf">conf<
/a><
/h3>
Conf command can be used to display different kind of information about <
i>μCsim<
/i>.
It can be followed by a subcommand:
<
p><
a href="#conf_">conf<
/a> <
br>
conf <
a href="#conf_objects">objects<
/a> <
/p>
<
h4><
a name="conf_">conf<
/a><
/h4>
This command (without a subcommand) prints out configuration of the
simulator:
ucsim version 0.5.0-pre3
Type of microcontroller: 51 CMOS
Controller has 9 hardware element(s).
timer0[0]
timer1[1]
uart[0]
port[0]
port[1]
port[2]
port[3]
irq[0]
_51_dummy[0]
0>
<
/pre> First line contains
version number of the program. Second line informs
about type of the simulated microcontroller. Third line prints out how
many hardware elements are simulated.
<
h4><
a name="conf_objects">conf <
i>objects<
/i><
/a><
/h4>
This command is
for development only. <
/blockquote>
<
h3><
a name="h">?,help <
i>
[command
]<
/i><
/a><
/h3>
Help command. It prints out short description of the commands.
<
p>If a command
name is given as parameter then <
i>μCsim<
/i> prints out all
command that has similar names: <
/p>
show subcommand Generic command for showing things about the uCsim
set subcommand Set, see `set' command for more help
stop Stop
step Step
state State of microcontroller
statistic [mem [startaddr [endaddr]]]
Statistic of memory accesses
0> <font color="#118811">? s o</font>
show option [name] Show internal data of options
set option name|nr value
Set value of an option
0>
</pre> Some commands have more than one name which can produce interesting
result:
<pre>0> <font color="#118811">? t r</font>
timer delete id Delete a timer
timer start id Start a timer
0>
</pre> It looks that names of listed subcommands start with no "r" but take a
closer look on that commands:
<pre>0> <font color="#118811">? t d</font>
timer delete id Delete a timer
Names of command: delete remove
long help of timer delete
0> <font color="#118811">? t start</font>
timer start id Start a timer
Names of command: run start
long help of timer run
0> </pre>
<p>If parameter is unique name of a command then long description of the
command is printed out. </p>
<hr>
<h3><a name="q">quit</a></h3>
Quit. This command terminates actual console, it does not ask you to confirm
your intention. Simulator always reads commands from a file so end of file
condition finishes too. If command console is on standard input/output,
pressing the CTRL-D will quit just like the quit command.
<p>Note that if <a href="invoke.html#Zoption">-Z option</a> was used at
invocation then the quit command does not terminate the simulator program.
In this case <a href="#kill">kill</a> command can be used to terminate
the simulator. See for more information about <a href="mulcons.html">using
multiple consoles</a>. </p>
<pre>$ <font color="#118811">s51</font>
ucsim 0.2.24, Copyright (C) 1997 Daniel Drotos, Talker Bt.
ucsim comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
> <font color="#118811">q</font>
$ </pre>
<hr>
<h3><a name="kill">kill</a></h3>
This command terminates the simulator. It does not ask for confirmation. It
doesn't matter how many consoles are used and what commands are running on
them.
<
h3><
a name="exec">exec <
i>file<
/i><
/a><
/h3>
Reads commands from "file" and executes them. This command opens a new
console (which will use same in/out file as the actual one) to execute the
file. This means the "quit" command in the file will not exit the simulator:
<
pre>drdani@emma:~$ <
font color="#118811">cat
/tmp
/x<
/font>
get opt
quit
conf
drdani@emma:~$ <
font color="#118811">s51<
/font>
uCsim 0.5.0-pre3, Copyright (C) 1997 Daniel Drotos, Talker Bt.
uCsim comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
0> <
font color="#118811">exec
"/tmp/x"<
/font>
1> get opt
0. config_file(by application) is hidden!
1. console_on(by application) is hidden!
2. cpu_type(by application) is hidden!
3. debug(by console1): FALSE - Debug messages to console1
4. debug(by console0): FALSE - Debug messages to console0
5. debug(by application): FALSE - Print debug messages (-V)
6. irq_stop(by mcs51_controller): FALSE - Stop when IRQ accepted
7. null_prompt(by application): FALSE - Use \0 as prompt (-P)
8. prompt(by console1): "" - Prompt string of console1
9. prompt(by console0): "" - Prompt string of console0
10. prompt(by application): (null) - String of prompt (-p)
11. serial_in_file(by application) is hidden!
12. serial_out_file(by application) is hidden!
13. xtal(by application): 11059200.000 - Frequency of XTAL in Hz
1> quit
0>
<
h3><
a name="expression">expression
[/format
] <
i>expr<
/i><
/a><
/h3>
Executes
"expr" as an expression.
For more about expressions, see <
a href="syntax.html">command
3
0> <
font color="#118811">expr xram
[256*dph+dpl
]= &sp<
/font>
129
0>
<
h3><
a name="show">show<
/a><
/h3>
Show command can be used to display different kind of information. It must
be followed by a subcommand. Subcommands are:
<
p>show <
a href="#show_copying">copying<
/a> <
br>
show <
a href="#show_warranty">warranty<
/a> <
br>
show <
a href="#show_option">option<
/a> <
br>
show <
a href="#show_error">error<
/a> <
/p>
<
h4><
a name="show_copying">show copying<
/a><
/h4>
This command can be used to list licensing information. It is first 10
point of the version 2 of GNU General Public License. If you do not accept
GPL simply do not use the program.
<
h4><
a name="show_warranty">show warranty<
/a><
/h4>
This command prints out last 2 point of the license ("NO WARRANTY"
message).
<
h4><
a name="show_option">show option<
/a><
/h4>
This command is for development only.
<
h4><
a name="show_error">show error<
/a><
/h4>
Errors or warnings are events which can happen in the simulated system
during simulation. Report of that events can be turned on or off using <
a href="#set_error"><
b>set error<
/b><
/a> command. Errors are organized in
parent-child relationship. Childs are listed under the parent:
Error: non-classified [on/ON]
Error: memory [on/ON]
Error: invalid_address [unset/ON]
Error: non_decoded [unset/ON]
Error: stack [off/OFF]
Error: stack_tracker [unset/OFF]
Error: stack_tracker_wrong_handle [unset/OFF]
Error: operation_on_empty_stack [unset/OFF]
Warning: stack_operation_unmatched_to_top_of_stack [unset/OFF]
Warning: stack_looks_corrupted [unset/OFF]
First element is the type (Error or Warning). Error stops the simulation.
Warning is just reported and simulation goes on. Next element is the name
of the error. Last element shows actual value and state. Value can be:
<
dd>state is inherited from the parent. <
/dd>
If state is <
b>ON<
/b> and the event happens, it is reported. If state is
<
b>OFF<
/b> then the event is silently ignored. <
/blockquote>
<
h3><
a name="get">get<
/a><
/h3>
This command can be used to get value of various kind of things. It requires
a subcommand to specify what is going to be set. Known subcommands are:
<
p>get <
a href="#get_sfr">sfr<
/a> <
br>
get <
a href="#get_option">option<
/a> <
br>
get <
a href="#get_error">error<
/a> <
/p>
<
h4><
a name="get_sfr">get sfr <
i>address...<
/i><
/a><
/h4>
This command can be used to check values of SFR location(s) if SFR exists
in simulated memory. Note that <
a href="cmd_dump.html#dump_memory">dump
memory<
/a> or <
a href="cmd_dump.html#ds">ds<
/a> can be used as well.
<
p>Parameters are interpreted as SFR names or addresses and values of
addressed locations are dumped out. <
/p>
ucsim 0.5.0-pre3, Copyright (C) 1997 Daniel Drotos, Talker Bt.
ucsim comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
0> <
font color="#118811">get sfr pcon p1
0 0x80 kahd scon
256<
/font>
0x87 00 .
0x90 ff .
Warning: Invalid address 0
0x80 ff .
Warning: Invalid address kahd
0x98 00 .
Warning: Invalid address 256
<
h4><
a name="get_option">get option <
i>
[name]<
/i><
/a><
/h4>
Get actual
value of option
(s
). Some options can be set by <
a href="#set_option"><
b>set
option<
/b><
/a> to modify behaviour of the simulator. Using <
b>get
option<
/b> you can get actual
value of these options. If you use this
command without parameter you get list of all options known by the
program. In this way you can figure out which options can be used.
ucsim 0.5.0, Copyright (C) 1997 Daniel Drotos, Talker Bt.
ucsim comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
0> <
font color="#118811">get opt<
/font>
3. debug(by console0): FALSE - Debug messages to console0
4. debug(by application): FALSE - Print debug messages (-V)
5. irq_stop(by mcs51_controller): FALSE - Stop when IRQ accepted
6. null_prompt(by application): FALSE - Use \0 as prompt (-P)
7. prompt(by console0): "" - Prompt string of console0
8. prompt(by application): (null) - String of prompt (-p)
11. xtal(by application): 11059200.000 - Frequency of XTAL in Hz
0>
<
/pre> First element of the list is the number of the option. It is followed by
name of the option
(<
b>debug<
/b>, <
b>irq_stop<
/b>, etc.
). Number or the
name can be used to identify the option in <
b>get option<
/b> and <
a href="#set_option"><
b>set
option<
/b><
/a> command. Next element shows which part of the simulator
created the option.
<
p>Next element of the list is the
value of the option. It can be an
integer or a floating point number, a string or a boolean
value. <
/p>
<
p>Last part describes the option. <
/p>
<
p>Some options can have same
name. An example is the <
b>debug<
/b>
option. One is created by the application to store value given by -V
(see <
a href="invoke.html">invocation<
/a>
). This will be used as
default
value when a new instance of a console is created: <
/p>
get opt debug
uCsim 0.5.0-pre3, Copyright (C) 1997 Daniel Drotos, Talker Bt.
uCsim comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
0> <
font color="#118811">get opt debug<
/font>
3. debug(by console0): FALSE - Debug messages to console0
4. debug(by application): FALSE - Print debug messages (-V)
0> <
font color="#118811">set opt
4 1<
/font>
0> <
font color="#118811">get opt debug<
/font>
3. debug(by console0): FALSE - Debug messages to console0
4. debug(by application): TRUE - Print debug messages (-V)
0> <
font color="#118811">exec
"/tmp/x"<
/font>
1> get opt debug
3. debug(by console1): TRUE - Debug messages to console1
4. debug(by console0): FALSE - Debug messages to console0
5. debug(by application): TRUE - Print debug messages (-V)
1>
0>
<
h4><
a name="get_error">get error<
/a><
/h4>
<
h3><
a name="set">set<
/a><
/h3>
This command can be used to set various kind of things. It requires a
subcommand to specify what is going to be set. Known subcommands are:
<
p>set <
a href="#set_option">option<
/a> <
br>
set <
a href="#set_error">error<
/a> <
br>
set <
a href="#set_memory">memory<
/a> <
br>
set <
a href="#set_bit">bit<
/a> <
br>
set <
a href="#set_hardware">hardware<
/a> <
/p>
<
h4><
a name="set_option">set option <
i>
name|nr value<
/i><
/a><
/h4>
<
p>Set option
value. Options described at
(<
a href="#get_option"><
b>get
option<
/b><
/a>
) command can be set using this command. First
parameter must be an option name or number and second the new value.
Interpretation of the value depends on type of the option. Value for a
boolean type of option interpreted as follows: if first character of the
then
value will be TRUE otherwise it will be FALSE. <
/p>
uCsim 0.5.0-pre3, Copyright (C) 1997 Daniel Drotos, Talker Bt.
uCsim comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
> <
font color="#118811">get opt<
/font>
0. config_file(by application) is hidden!
1. console_on(by application) is hidden!
2. cpu_type(by application) is hidden!
3. debug(by console0): TRUE - Debug messages to console0
4. debug(by application): TRUE - Print debug messages (-V)
5. irq_stop(by mcs51_controller): FALSE - Stop when IRQ accepted
6. null_prompt(by application): FALSE - Use \0 as prompt (-P)
7. prompt(by console0): "" - Prompt string of console0
8. prompt(by application): (null) - String of prompt (-p)
9. serial_in_file(by application) is hidden!
10. serial_out_file(by application) is hidden!
11. xtal(by application): 11059200.000 - Frequency of XTAL in Hz
> <
font color="#118811">set opt debug f<
/font>
Ambiguous option name, use number instead
> <
font color="#118811">set opt
3 f<
/font>
> <
font color="#118811">get opt debug<
/font>
3. debug(by console0): FALSE - Debug messages to console0
4. debug(by application): TRUE - Print debug messages (-V)
<
h4><
a name="set_error">set error <
i>error_name on|off|unset<
/i><
/a><
/h4>
This command can be used to set if an error event should be reported or
not. Actual settings can be retrieved by <
a href="show_error">show error<
/a>
<
h4><
a name="set_console">set console <
i>interactive
[on|off
]|noninteractive|raw|edited<
/i><
br>
<
h4><
a name="set_memory">set memory <
i>memory_type address
data...<
/i><
/a><
/h4>
This command can be used to modify content of any simulated memory. First
parameter must be a class name to specify type of memory. Class names can
de
checked by <
a href="cmd_general.html#info_memory">info memory<
/a>
command. Chips and address spaces can be used as well.
<
p>Second parameter specifies
start address of the modification. <
/p>
<
p>Remaining parameters will be written into the memory starting at
address specified by second parameter. Data list can include numbers as
well as strings. See <
a href="syntax.html">syntax<
/a>
for more details.
<
p>Modified memory locations will be dumped out. <
/p>
<
pre>
0> <
font color="#118811">set mem xram
1 "ab\tcd\0ef\012ghq" 2 "ABC"<
/font>
0x0001 61 62 09 63 64 00 65 66 ab.cd.ef
0x0009 0a 67 68 71 02 41 42 43 .ghq.ABC
0> <
font color="#118811">set mem sfr pcon 0x34<
/font>
0x87 34 4
0> <
font color="#118811">set mem xram_chip
1 2<
/font>
0x0001 02 .
<
h4><
a name="set_bit">set bit <
i>address
0|
1<
/i><
/a><
/h4>
Set one bit to 0 or 1. First parameter specifies the bit. It can be the
address of the bit
(number or symbolic
name) or it can be specified in <
i>address<
b>.<
/b>bitnumber<
/i>
format where <
i>address<
/i> addresses SFR area and <
i>bitnumber<
/i> is
number of bit in specified SFR location. Using this syntax any SFR (and
8051's internal RAM) location can be modified it need not be really bit
addressable.
<p>Second parameter interpreted as 1 if it is not zero. </p>
<p>Modified memory location is dumped out. </p>
<pre>$ <font color="#118811">s51 </font>
ucsim 0.2.38-pre2, Copyright (C) 1997 Daniel Drotos, Talker Bt.
ucsim comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
> <font color="#118811">set bit tf1 1</font>
0x88 80 .
> <font color="#118811">set bit 130 0</font>
0x80 fb .
> <font color="#118811">set bit pcon.2 1</font>
0x87 04 .
> <font color="#118811">set bit 10.7 1</font>
0x0a 80 .
>
</pre>
<hr>
<h4><a name="set_hardware">set hardware <i>hardware_id data</i></a></h4>
This command can be used to set value into a hardware element of the
controller (<a href="#conf">conf</a> command lists them).
<p>Actually only <b>port</b> element of MCS51 accepts this method. It can
be used to set value of external circuits which connected to ports of
simulated controller. First parameter specifies port element (as an
array), second is the new value. </p>
<pre>0> <font color="#118811">conf</font>
Type of microcontroller: 51 CMOS
Controller has 9 hardware element(s).
timer0[0]
timer1[1]
uart[0]
port[0]
port[1]
port[2]
port[3]
irq[0]
_51_dummy[0]
0> <font color="#118811">set hw port[0] 12</font>
0> <font color="#118811">i h po[0]</font>
port[0]
P0 11111111 0xff 255 . (Value in SFR register)
Pin0 00001100 0x0c 12 . (Output of outside circuits)
Port0 00001100 0x0c 12 . (Value on the port pins)
0> <font color="#118811">set hw port[0] 23</font>
0> <font color="#118811">i h po[0]</font>
port[0]
P0 11111111 0xff 255 . (Value in SFR register)
Pin0 00010111 0x17 23 . (Output of outside circuits)
Port0 00010111 0x17 23 . (Value on the port pins)
0> <font color="#118811">set hw irq[0] 12</font>
Nothing to do
0>
</pre> </blockquote>
<hr>
<h3><a name="state">state</a></h3>
State of the simulator and the simulated microcontroller:
<pre>> <font color="#118811">state</font>
CPU state= OK PC= 0x004349 XTAL= 1.10592e+07
Total time since last reset= 0.614873 sec (6800004 clks)
Time in isr = 0.0144227 sec (159504 clks) 2.3%
Time in idle= 0 sec (0 clks) 0%
Max value of stack pointer= 0x000049, avg= 0x000026
>
</pre> The "CPU state" in the first line is an internal information. PC is value
of the program counter. First line shows XTAL frequency too.
<p>Following lines contain information about simulated time. First, full
simulated time (elapsed from last reset) is printed out in seconds and
number of clock periods then same data is printed out about time spent in
interrupt service routines as well as in idle mode. Last data in lines of
ISR and IDLE time shows ratio of ISRs, Idle times and main program. </p>
<p>Last line informs about maximum value of the stack pointer and a "not
very well" calculated average value of it. </p>
<hr>
<h3><a name="reset">reset</a></h3>
Reset command. It resets the microcontroller. It has same effect as active
signal on the RST pin.
<pre>$ <font color="#118811">s51 -V remoansi.hex</font>
ucsim 0.2.24, Copyright (C) 1997 Daniel Drotos, Talker Bt.
ucsim comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
58659 bytes read from remoansi.hex
> <font color="#118811">i r</font>
000000 00 00 00 00 00 00 00 00 ........
000000 00 . ACC= 0x00 0 . B= 0x00 DPTR= 0x0000 @DPTR= 0x00 0 .
000000 00 . PSW= 0x00 CY=0 AC=0 OV=0 P=0
000000 02 01 60 LJMP 0160
> <font color="#118811">s</font>
000000 00 00 00 00 00 00 00 00 ........
000000 00 . ACC= 0x00 0 . B= 0x00 DPTR= 0x0000 @DPTR= 0x00 0 .
000000 00 . PSW= 0x00 CY=0 AC=0 OV=0 P=0
000160 c2 90 CLR P1.0
> <font color="#118811">s</font>
000000 00 00 00 00 00 00 00 00 ........
000000 00 . ACC= 0x00 0 . B= 0x00 DPTR= 0x0000 @DPTR= 0x00 0 .
000000 00 . PSW= 0x00 CY=0 AC=0 OV=0 P=0
000162 c2 97 CLR P1.7
> <font color="#118811">res</font>
> <font color="#118811">i r</font>
000000 00 00 00 00 00 00 00 00 ........
000000 00 . ACC= 0x00 0 . B= 0x00 DPTR= 0x0000 @DPTR= 0x00 0 .
000000 00 . PSW= 0x00 CY=0 AC=0 OV=0 P=0
000000 02 01 60 LJMP 0160
> </pre>
<hr>
<h3><a name="info">info</a></h3>
This command prints out information about different things which must be
specified as parameter to the command. Following subcommands are known:
<p>info <a href="#info_breakpoints">breakpoints</a> <br>
info <a href="#info_registers">registers</a> <br>
info <a href="#info_hardware">hardware</a> <br>
<!-- info <a href="#info_stack">stack</a> <br>-->
info <a href="#info_memory">memory</a> <br>
info <a href="#info_variables">variables</a> </p>
<blockquote>
<h4><a name="info_breakpoints">info breakpoints</a></h4>
This subcommand prints out information about breakpoints:
<pre>0> <font color="#118811">b 12</font>
Breakpoint 1 at 0x00000c: MOV R7,A
0> <font color="#118811">tb 43</font>
Breakpoint 2 at 0x00002b: MOV R7,A
0> <font color="#118811">b sfr w 0x80</font>
0> <font color="#118811">i b</font>
Num Type Disp Hit Cnt Address What
1 fetch keep 1 1 0x00000c MOV R7,A
2 fetch del 1 1 0x00002b MOV R7,A
3 event keep 1 1 0x000080 write
0>
</pre> As you see above, the command can be shortened to "i b". The list of
breakpoints contains 7 columns:
<dl>
<dt><b>Num</b> </dt>
<dd>Number of the breakpoint. </dd>
<dt><b>Type</b> </dt>
<dd>This column shows type of the breakpoint. It can be <i>fetch</i>
for normal breakpoints or <i>event</i> for event breakpoints. First
the normal breakpoints are listed and then the event breakpoints. </dd>
<dt><b>Disp</b> </dt>
<dd>This shows if the breakpoint is temporary (<i>del</i>) or not (<i>keep</i>).
</dd> <dt><b>Hit</b> </dt>
<dd>How many times the breakpoint must be hit before it really stops the
program. </dd>
<dt><b>Cnt</b> </dt>
<dd>Counter of breakpoint hits. This counter decrements and the
breakpoint is activated if it reaches zero. </dd>
<dt><b>Address</b> </dt>
<dd>Address where the breakpoint is set. </dd>
<dt><b>What</b> </dt>
<dd>For normal breakpoints this field contains disassembled instruction
where the breakpoint is set. For event breakpoints it contains type of
event. </dd>
</dl>
<hr>
<h4><a name="info_registers">info registers</a></h4>
This subcommand prints out full register set of the CPU. Output of this
command depends of type of CPU.
<h5>Registers of MCS51 family</h5>
<pre>$ <font color="#118811">s51 remoansi.hex</font>
ucsim 0.2.12, Copyright (C) 1997 Daniel Drotos, Talker Bt.
ucsim comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
58659 bytes read from remoansi.hex
> <font color="#118811">sopt stopit 1</font>
> <font color="#118811">g</font>
5
* 000023 02 01 1c LJMP 011c
> <font color="#118811">i r</font>
000000 18 02 16 ba 00 02 00 0a ........
000018 4a J ACC= 0x0a 10 . B= 0x00 DPTR= 0x16ba @DPTR= 0x00 0 .
000002 16 . PSW= 0x00 CY=0 AC=0 OV=0 P=0
* 000023 02 01 1c LJMP 011c
> </pre>
In first line the actual register bank is dumped out. Register banks
reside in internal RAM, address at the beginning of the line shows start
address of actual register bank selected by RS0 and RS1 bits of PSW
register.
<p>Next two lines begin with value of indirectly addressed internal RAM
cells. Second line shows IRAM cell pointed by R0 while third line shows
IRAM addressed by R1. </p>
<p>Second line displays some important registers. First one is the
accumulator. Its value dumped out in hexadecimal, decimal form and then
the ASCII character of its value. It is followed by value of the B
register which is dumped out in hexadecimal form only. Next is DPTR
register in hexadecimal and then external RAM cell which is addressed by
DPTR. This is dumped out in hexadecimal, decimal and ASCII too. </p>
<p>In third line you find program status word in hexadecimal and then some
flag bits of PSW register. Last line is disassembled instruction at PC.
</p>
<h5>Registers of AVR family</h5>
<pre>$ <font color="#118811">savr test_arith.hex</font>
ucsim 0.2.37, Copyright (C) 1997 Daniel Drotos, Talker Bt.
ucsim comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
> 83 words read from test_arith.hex
83 words read from test_arith.hex
> <font color="#118811">run</font>
Stop at 0x000047: (105) User stopped
F 0x000047
> <font color="#118811">i r</font>
000000 00 2c 21 23 20 35 19 14 03 00 00 00 00 00 00 00 .,!# 5..........
000010 00 01 1e 89 01 00 10 e2 14 00 01 10 00 00 00 00 ................
ITHSVNZC SREG= 0x03 3 .
00000011 SP = 0x000000
X= 0x1001 [X]= 0x00 0 . Y= 0x0000 [Y]= 0x00 0 . Z= 0x0000 [Z]= 0x00 0 .
* 000047 940c 0047 jmp 0x000047
>
</pre> First two lines show first 32 bytes of internal RAM which is the register
set of AVR controllers.
<p>At the beginning of next two lines bits of status register are printed.
These lines present hexadecimal, decimal and ASCII values of the status
register too, and value of the stack pointer. </p>
<p>Following line shows indirect addressing registers X, Y, and Z as well
as pointed memory values. </p>
<p>Last line is disassembled instruction at PC. </p>
<h5>Registers of Z80 family</h5>
<pre>$ <font color="#118811">sz80</font>
uCsim 0.5.0-pre3, Copyright (C) 1997 Daniel Drotos, Talker Bt.
uCsim comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
0> <font color="#118811">i r</font>
SZ-A--P-C Flags= 0x00 0 . A= 0x00 0 .
00-0--0-0
BC= 0x0000 [BC]= 00 0 . DE= 0x0000 [DE]= 00 0 . HL= 0x0000 [HL]= 00 0 .
IX= 0x0000 [IX]= 00 0 . IY= 0x0000 [IY]= 00 0 . SP= 0x0000 [SP]= 00 0 .
? 0x0000 00 NOP
0>
</pre>
<h5>Registers of XA family</h5>
<pre>$ <font color="#118811">sxa</font>
uCsim 0.5.0-pre3, Copyright (C) 1997 Daniel Drotos, Talker Bt.
uCsim comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
The XA Simulator is in development, UNSTABLE, DEVELOPERS ONLY!
0> <font color="#118811">i r</font>
CA---VNZ | R0:0100 R1:0302 R2:0504 R3:0706
00---000 | R4:0908 R5:0b0a R6:0d0c SP:0100 ES:0000 DS:0000
? 0x0302 02 03 ADD R0l,[R3]
0>
</pre>
<h5>Registers of HC08 family</h5>
<pre>$ <font color="#118811">shc08</font>
uCsim 0.5.0-pre3, Copyright (C) 1997 Daniel Drotos, Talker Bt.
uCsim comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
0> <font color="#118811">i r</font>
V--HINZC Flags= 0x60 96 ` A= 0x00 0 .
0--00000 H= 0x00 0 . X= 0x00 0 .
SP= 0x00ff [SP+1]= 00 0 .
? 0x0000 00 01 02 brset #0,*0x01,0x0005
0>
</pre>
<hr>
<h4><a name="info_hardware">info hardware|hw <i>identifier</i></a></h4>
This subcommand prints out information about a unit of the controller. <b>identifier</b>
specifies hardware element. One form of it is a name. Names of hardware
elements can be checked by <a href="#conf">conf</a> command. This form is
accepted only when name is unique. If more than one element exists with
the same name then name must be followed by id number in square brackets
in same form as it is listed by <a href="#conf">conf</a> command.
<p>Output format of this command depends on CPU family and type of the CPU
too because requested unit can be different in different type of
controller even in the same CPU family. </p>
<pre>$ <font color="#118811">s51 -t 51</font>
ucsim 0.5.0-pre3, Copyright (C) 1997 Daniel Drotos, Talker Bt.
ucsim comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
0> <font color="#118811">conf</font>
ucsim version 0.5.0-pre3
Type of microcontroller: 51 CMOS
Controller has 8 hardware element(s).
timer0[0]
timer1[1]
uart[0]
port[0]
port[1]
port[2]
port[3]
irq[0]
_51_dummy[0]
0> <font color="#118811">i h port[2]</font>
port[2]
P2 11111111 0xff 255 . (Value in SFR register)
Pin2 11111111 0xff 255 . (Output of outside circuits)
Port2 11111111 0xff 255 . (Value on the port pins)
0> <font color="#118811">i h t[0]</font>
timer0[0] 0x0000 13 bit timer OFF irq=0 dis prio=0
0> <font color="#118811">i h u</font>
uart[0] Shift, fixed clock MultiProc=none irq=dis prio=0
Receiver OFF RB8=0 irq=0
Transmitter TB8=0 irq=0
0>
</pre> Timer #2 differs a little bit from other timers of MCS51:
<pre>$ <font color="#118811">s51 -t 52</font>
ucsim 0.5.0-pre3, Copyright (C) 1997 Daniel Drotos, Talker Bt.
ucsim comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
0> <font color="#118811">i h timer0</font>
timer0[0] 0x0000 13 bit timer OFF irq=0 dis prio=0
0> <font color="#118811">i h t[2]</font>
timer2[2] 0x0000 reload 0x0000 timer OFF irq=0 dis prio=0
0>
</pre>
<hr>
<!--
<h4><a name="info_stack">info stack</a></h4>
This command prints out information about data stored in the CPU's stack
and operations which put them there.
uCsim 0.5.0-pre3, Copyright (C) 1997 Daniel Drotos, Talker Bt.
uCsim comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
55470 words read from /home/staff/drdani/remo.hex
0> <
font color="#118811">set opt irq_stop true<
/font>
Simulation started, PC=0x000000
Stop at 0x000023: (2) Interrupt
F 0x000023
OP SP before-after L DATA/ADDR INSTRUCTION
call 0x000022-0x000024 2 0x002976 0x022a 12 29 76 LCALL 2976
call 0x000024-0x000026 2 0x002379 0x2976 12 23 79 LCALL 2379
call 0x000026-0x000028 2 0x003612 0x2517 12 36 12 LCALL 3612
intr 0x000028-0x00002a 2 0x000023 0x366f 20 0c 02 JB 21.4,3674
0>
<
/pre> First column shows the operation which can be <
b>call<
/b> or <
b>push<
/b>
or <
b>intr<
/b>
(interrupt call
). Next column contains
value of the SP
register before and after the operation. Column "L" shows size of the
data, and the next column the data itself. Note, that for call operations
(call, and intr
) the <
b>called<
/b> address is printed, not the pushed
one! Last column is the instruction which has been executed when the
operation occurred.
-->
<
h4><
a name="info_memory">info memory<
/a><
/h4>
This command shows information about <
a href="memory.html">memory system<
/a>:
chips, address spaces and address decoders.
uCsim 0.5.0-pre3, Copyright (C) 1997 Daniel Drotos, Talker Bt.
uCsim comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
Memory chips:
0x000000-0x010000 65536 rom_chip (8,%02x,0x%04x)
0x000000-0x000080 128 iram_chip (8,%02x,0x%02x)
0x000000-0x010000 65536 xram_chip (8,%02x,0x%04x)
0x000000-0x000080 128 sfr_chip (8,%02x,0x%02x)
Address spaces:
0x000000-0x010000 65536 rom (8,%02x,0x%04x)
0x000000-0x000080 128 iram (8,%02x,0x%02x)
0x000080-0x000080 128 sfr (8,%02x,0x%02x)
0x000000-0x010000 65536 xram (8,%02x,0x%04x)
Address decoders:
0 rom 0x0000 0xffff -> rom_chip 0x0000 activated
0 iram 0x00 0x7f -> iram_chip 0x00 activated
0 sfr 0x80 0xff -> sfr_chip 0x00 activated
0 xram 0x0000 0xffff -> xram_chip 0x0000 activated
0>
<
/pre> First column shows address ranges, next one is the
size followed by the
name of the memory. This
name can be used in other commands
(such as <
a href="cmd_dump.html#dump">dump<
/a>,
<
a href="#set_memory">set memory<
/a>, etc.
). Last column shows some
technical information (width in bits, format specifier to print out
content and address).
<
p>Address decoders are associated with address spaces. Each address space
has a list of decoders. First column of the address decoder information
is the number of the decoder. Next three columns specifies name and area
of the address space which is handled by the decoder. After "->" sign
the name and the address of the memory chip is printed where the decoder
maps the area of the address space. <
/p>
<
p>Memory system of other controller family can be different. <
/p>
uCsim 0.5.0-pre3, Copyright (C) 1997 Daniel Drotos, Talker Bt.
uCsim comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
Memory chips:
0x000000-0x00ffff 65536 rom_chip (16,%04x,0x%04x)
0x000000-0x00007f 128 iram_chip (8,%02x,0x%02x)
Address spaces:
0x000000-0x00ffff 65536 rom (16,%04x,0x%04x)
0x000000-0x00ffff 65536 iram (8,%02x,0x%04x)
Address decoders:
0 rom 0x0000 0xffff -> rom_chip 0x0000 activated
0 iram 0x0000 0x007f -> iram_chip 0x00 activated
0>
<
h4><
a name="info_variables">info variables<
/a><
/h4>
<
h3><
a name="timer">timer<
/a><
/h3>
Handling of timers. Don't be confused! This command doesn't handle timer
element of the controller. It manages "clock counters" which can be used to
profile applications.
<
p>Known subcommands are: <
/p>
<
p>timer <
a href="#timer_add">add<
/a> <
br>
timer <
a href="#timer_delete">delete<
/a> <
br>
timer <
a href="#timer_get">get<
/a> <
br>
timer <
a href="#timer_start">start<
/a> <
br>
timer <
a href="#timer_stop">stop<
/a> <
br>
timer <
a href="#timer_set">set<
/a> <
/p>
<
p>Each subcommand can
(some must
) be followed by a timer
id which can be a
number or a string. Timers are numbered from 1. You can use any number
greater than 0 to identify a timer. Or you can use a simbolic name, in
this case simulator uses the first unused number to allocate a new timer.
<
h4><
a name="timer_add">timer add|create|make <
i>
id [direction
[in_isr
]]<
/i><
/a><
/h4>
To create a new timer. New timers are turned ON by default and initialized
to
value 0. <
b>Direction<
/b> is an integer
(can be positive or negative
) number which is added to the actual
value in every step. If <
b>in_isr<
/b>
is TRUE the timer counts only when execution is in an interrupt handler.
<
h4><
a name="timer_delete">timer delete|remove <
i>id<
/i><
/a><
/h4>
To remove a timer if you don't need it any more.
<hr>
<h4><a name="timer_get">timer get <i>[id]</i></a></h4>
To get value of timers. If you don't use timer id in this command
simulator prints out value of all timers including predefined ones. See
example below.
<
h4><
a name="timer_start">timer
start|run <
i>id<
/i><
/a><
/h4>
To turn a timer ON.
<
h4><
a name="timer_stop">timer stop <
i>id<
/i><
/a><
/h4>
To turn a timer OFF. It still exist but doesn't count xtal periods.
<hr>
<h4><a name="timer_set">timer set|value <i>id value</i></a></h4>
To set value of the timer (number of xtal periods). <b>value</b> is the
new value.
<pre>0> <font color="#118811">tim a 3</font>
0> <font color="#118811">tim g</font>
timer #0("time") ON: 0.463255 sec (5123232 clks)
timer #0("isr") ON: 0.0051888 sec (57384 clks)
timer #0("idle") ON,ISR: 0 sec (0 clks)
timer #3("unnamed") ON: 0 sec (0 clks)
0> <font color="#118811">tim a "a"</font>
0> <font color="#118811">tim g</font>
timer #0("time") ON: 0.463255 sec (5123232 clks)
timer #0("isr") ON: 0.0051888 sec (57384 clks)
timer #0("idle") ON,ISR: 0 sec (0 clks)
timer #1("a") ON: 0 sec (0 clks)
timer #3("unnamed") ON: 0 sec (0 clks)
0>
</pre> </blockquote>
<hr>
</body>
</html>