TriOS-alt/flash/administra/pterm.spin

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2010-11-26 23:58:06 +01:00
<EFBFBD><EFBFBD>{{
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
File: Parallax Serial Terminal.spin
Version: 1.0
Copyright (c) 2009 Parallax, Inc.
See end of file for terms of use.
Authors: Jeff Martin, Andy Lindsay, Chip Gracey
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
}}
{
HISTORY:
This object is made for direct use with the Parallax Serial Terminal; a simple serial communication program
available with the Propeller Tool installer and also separately via the Parallax website (www.parallax.com).
This object is heavily based on FullDuplexSerialPlus (by Andy Lindsay), which is itself heavily based on
FullDuplexSerial (by Chip Gracey).
USAGE:
" Call Start, or StartRxTx, first.
" Be sure to set the Parallax Serial Terminal software to the baudrate specified in Start, and the proper COM port.
" At 80 MHz, this object properly receives/transmits at up to 250 Kbaud, or performs transmit-only at up to 1 Mbaud.
}
CON
''
'' Parallax Serial Terminal
'' Control Character Constants
''%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
CS = 16 ''CS: Clear Screen
CE = 11 ''CE: Clear to End of line
CB = 12 ''CB: Clear lines Below
HM = 1 ''HM: HoMe cursor
PC = 2 ''PC: Position Cursor in x,y
PX = 14 ''PX: Position cursor in X
PY = 15 ''PY: Position cursor in Y
NL = 13 ''NL: New Line
LF = 10 ''LF: Line Feed
ML = 3 ''ML: Move cursor Left
MR = 4 ''MR: Move cursor Right
MU = 5 ''MU: Move cursor Up
MD = 6 ''MD: Move cursor Down
TB = 9 ''TB: TaB
BS = 8 ''BS: BackSpace
BP = 7 ''BP: BeeP speaker
CON
BUFFER_LENGTH = 64 'Recommended as 64 or higher, but can be 2, 4, 8, 16, 32, 64, 128 or 256.
BUFFER_MASK = BUFFER_LENGTH - 1
MAXSTR_LENGTH = 49 'Maximum length of received numerical string (not including zero terminator).
VAR
long cog 'Cog flag/id
long rx_head '9 contiguous longs (must keep order)
long rx_tail
long tx_head
long tx_tail
long rx_pin
long tx_pin
long rxtx_mode
long bit_ticks
long buffer_ptr
byte rx_buffer[BUFFER_LENGTH] 'Receive and transmit buffers
byte tx_buffer[BUFFER_LENGTH]
byte str_buffer[MAXSTR_LENGTH+1] 'String buffer for numerical strings
PUB Start(baudrate) : okay
{{Start communication with the Parallax Serial Terminal using the Propeller's programming connection.
Waits 1 second for connection, then clears screen.
Parameters:
baudrate - bits per second. Make sure it matches the Parallax Serial Terminal's
Baud Rate field.
Returns : True (non-zero) if cog started, or False (0) if no cog is available.}}
okay := StartRxTx(31, 30, 0, baudrate)
waitcnt(clkfreq + cnt) 'Wait 1 second for PST
Clear 'Clear display
PUB StartRxTx(rxpin, txpin, mode, baudrate) : okay
{{Start serial communication with designated pins, mode, and baud.
Parameters:
rxpin - input pin; receives signals from external device's TX pin.
txpin - output pin; sends signals to external device's RX pin.
mode - signaling mode (4-bit pattern).
bit 0 - inverts rx.
bit 1 - inverts tx.
bit 2 - open drain/source tx.
bit 3 - ignore tx echo on rx.
baudrate - bits per second.
Returns : True (non-zero) if cog started, or False (0) if no cog is available.}}
stop
longfill(@rx_head, 0, 4)
longmove(@rx_pin, @rxpin, 3)
bit_ticks := clkfreq / baudrate
buffer_ptr := @rx_buffer
okay := cog := cognew(@entry, @rx_head) + 1
PUB Stop
{{Stop serial communication; frees a cog.}}
if cog
cogstop(cog~ - 1)
longfill(@rx_head, 0, 9)
PUB Char(bytechr)
{{Send single-byte character. Waits for room in transmit buffer if necessary.
Parameter:
bytechr - character (ASCII byte value) to send.}}
repeat until (tx_tail <> ((tx_head + 1) & BUFFER_MASK))
tx_buffer[tx_head] := bytechr
tx_head := (tx_head + 1) & BUFFER_MASK
if rxtx_mode & %1000
CharIn
PUB Chars(bytechr, count)
{{Send multiple copies of a single-byte character. Waits for room in transmit buffer if necessary.
Parameters:
bytechr - character (ASCII byte value) to send.
count - number of bytechrs to send.}}
repeat count
Char(bytechr)
PUB CharIn : bytechr
{{Receive single-byte character. Waits until character received.
Returns: $00..$FF}}
repeat while (bytechr := RxCheck) < 0
PUB Str(stringptr)
{{Send zero terminated string.
Parameter:
stringptr - pointer to zero terminated string to send.}}
repeat strsize(stringptr)
Char(byte[stringptr++])
PUB StrIn(stringptr)
{{Receive a string (carriage return terminated) and stores it (zero terminated) starting at stringptr.
Waits until full string received.
Parameter:
stringptr - pointer to memory in which to store received string characters.
Memory reserved must be large enough for all string characters plus a zero terminator.}}
StrInMax(stringptr, -1)
PUB StrInMax(stringptr, maxcount)
{{Receive a string of characters (either carriage return terminated or maxcount in length) and stores it (zero terminated)
starting at stringptr. Waits until either full string received or maxcount characters received.
Parameters:
stringptr - pointer to memory in which to store received string characters.
Memory reserved must be large enough for all string characters plus a zero terminator (maxcount + 1).
maxcount - maximum length of string to receive, or -1 for unlimited.}}
repeat while (maxcount--) 'While maxcount not reached
if (byte[stringptr++] := CharIn) == NL 'Get chars until NL
quit
byte[stringptr+(byte[stringptr-1] == NL)]~ 'Zero terminate string; overwrite NL or append 0 char
PUB Dec(value) | i, x
{{Send value as decimal characters.
Parameter:
value - byte, word, or long value to send as decimal characters.}}
x := value == NEGX 'Check for max negative
if value < 0
value := ||(value+x) 'If negative, make positive; adjust for max negative
Char("-") 'and output sign
i := 1_000_000_000 'Initialize divisor
repeat 10 'Loop for 10 digits
if value => i
Char(value / i + "0" + x*(i == 1)) 'If non-zero digit, output digit; adjust for max negative
value //= i 'and digit from value
result~~ 'flag non-zero found
elseif result or i == 1
Char("0") 'If zero digit (or only digit) output it
i /= 10 'Update divisor
PUB DecIn : value
{{Receive carriage return terminated string of characters representing a decimal value.
Returns: the corresponding decimal value.}}
StrInMax(@str_buffer, MAXSTR_LENGTH)
value := StrToBase(@str_buffer, 10)
PUB Bin(value, digits)
{{Send value as binary characters up to digits in length.
Parameters:
value - byte, word, or long value to send as binary characters.
digits - number of binary digits to send. Will be zero padded if necessary.}}
value <<= 32 - digits
repeat digits
Char((value <-= 1) & 1 + "0")
PUB BinIn : value
{{Receive carriage return terminated string of characters representing a binary value.
Returns: the corresponding binary value.}}
StrInMax(@str_buffer, MAXSTR_LENGTH)
value := StrToBase(@str_buffer, 2)
PUB Hex(value, digits)
{{Send value as hexadecimal characters up to digits in length.
Parameters:
value - byte, word, or long value to send as hexadecimal characters.
digits - number of hexadecimal digits to send. Will be zero padded if necessary.}}
value <<= (8 - digits) << 2
repeat digits
Char(lookupz((value <-= 4) & $F : "0".."9", "A".."F"))
PUB HexIn : value
{{Receive carriage return terminated string of characters representing a hexadecimal value.
Returns: the corresponding hexadecimal value.}}
StrInMax(@str_buffer, MAXSTR_LENGTH)
value := StrToBase(@str_buffer, 16)
PUB Clear
{{Clear screen and place cursor at top-left.}}
Char(CS)
PUB ClearEnd
{{Clear line from cursor to end of line.}}
Char(CE)
PUB ClearBelow
{{Clear all lines below cursor.}}
Char(CB)
PUB Home
{{Send cursor to home position (top-left).}}
Char(HM)
PUB Position(x, y)
{{Position cursor at column x, row y (from top-left).}}
Char(PC)
Char(x)
Char(y)
PUB PositionX(x)
{{Position cursor at column x of current row.}}
Char(PX)
Char(x)
PUB PositionY(y)
{{Position cursor at row y of current column.}}
Char(PY)
Char(y)
PUB NewLine
{{Send cursor to new line (carriage return plus line feed).}}
Char(NL)
PUB LineFeed
{{Send cursor down to next line.}}
Char(LF)
PUB MoveLeft(x)
{{Move cursor left x characters.}}
repeat x
Char(ML)
PUB MoveRight(x)
{{Move cursor right x characters.}}
repeat x
Char(MR)
PUB MoveUp(y)
{{Move cursor up y lines.}}
repeat y
Char(MU)
PUB MoveDown(y)
{{Move cursor down y lines.}}
repeat y
Char(MD)
PUB Tab
{{Send cursor to next tab position.}}
Char(TB)
PUB Backspace
{{Delete one character to left of cursor and move cursor there.}}
Char(BS)
PUB Beep
{{Play bell tone on PC speaker.}}
Char(BP)
PUB RxCount : count
{{Get count of characters in receive buffer.
Returns: number of characters waiting in receive buffer.}}
count := rx_head - rx_tail
count -= BUFFER_LENGTH*(count < 0)
PUB RxFlush
{{Flush receive buffer.}}
repeat while rxcheck => 0
PRI RxCheck : bytechr
{Check if character received; return immediately.
Returns: -1 if no byte received, $00..$FF if character received.}
bytechr~~
if rx_tail <> rx_head
bytechr := rx_buffer[rx_tail]
rx_tail := (rx_tail + 1) & BUFFER_MASK
PRI StrToBase(stringptr, base) : value | chr, index
{Converts a zero terminated string representation of a number to a value in the designated base.
Ignores all non-digit characters (except negative (-) when base is decimal (10)).}
value := index := 0
repeat until ((chr := byte[stringptr][index++]) == 0)
chr := -15 + --chr & %11011111 + 39*(chr > 56) 'Make "0"-"9","A"-"F","a"-"f" be 0 - 15, others out of range
if (chr > -1) and (chr < base) 'Accumulate valid values into result; ignore others
value := value * base + chr
if (base == 10) and (byte[stringptr] == "-") 'If decimal, address negative sign; ignore otherwise
value := - value
DAT
'***********************************
'* Assembly language serial driver *
'***********************************
org
'
'
' Entry
'
entry mov t1,par 'get structure address
add t1,#4 << 2 'skip past heads and tails
rdlong t2,t1 'get rx_pin
mov rxmask,#1
shl rxmask,t2
add t1,#4 'get tx_pin
rdlong t2,t1
mov txmask,#1
shl txmask,t2
add t1,#4 'get rxtx_mode
rdlong rxtxmode,t1
add t1,#4 'get bit_ticks
rdlong bitticks,t1
add t1,#4 'get buffer_ptr
rdlong rxbuff,t1
mov txbuff,rxbuff
add txbuff,#BUFFER_LENGTH
test rxtxmode,#%100 wz 'init tx pin according to mode
test rxtxmode,#%010 wc
if_z_ne_c or outa,txmask
if_z or dira,txmask
mov txcode,#transmit 'initialize ping-pong multitasking
'
'
' Receive
'
receive jmpret rxcode,txcode 'run chunk of tx code, then return
test rxtxmode,#%001 wz 'wait for start bit on rx pin
test rxmask,ina wc
if_z_eq_c jmp #receive
mov rxbits,#9 'ready to receive byte
mov rxcnt,bitticks
shr rxcnt,#1
add rxcnt,cnt
:bit add rxcnt,bitticks 'ready next bit period
:wait jmpret rxcode,txcode 'run chunk of tx code, then return
mov t1,rxcnt 'check if bit receive period done
sub t1,cnt
cmps t1,#0 wc
if_nc jmp #:wait
test rxmask,ina wc 'receive bit on rx pin
rcr rxdata,#1
djnz rxbits,#:bit
shr rxdata,#32-9 'justify and trim received byte
and rxdata,#$FF
test rxtxmode,#%001 wz 'if rx inverted, invert byte
if_nz xor rxdata,#$FF
rdlong t2,par 'save received byte and inc head
add t2,rxbuff
wrbyte rxdata,t2
sub t2,rxbuff
add t2,#1
and t2,#BUFFER_MASK
wrlong t2,par
jmp #receive 'byte done, receive next byte
'
'
' Transmit
'
transmit jmpret txcode,rxcode 'run chunk of rx code, then return
mov t1,par 'check for head <> tail
add t1,#2 << 2
rdlong t2,t1
add t1,#1 << 2
rdlong t3,t1
cmp t2,t3 wz
if_z jmp #transmit
add t3,txbuff 'get byte and inc tail
rdbyte txdata,t3
sub t3,txbuff
add t3,#1
and t3,#BUFFER_MASK
wrlong t3,t1
or txdata,#$100 'ready byte to transmit
shl txdata,#2
or txdata,#1
mov txbits,#11
mov txcnt,cnt
:bit test rxtxmode,#%100 wz 'output bit on tx pin
test rxtxmode,#%010 wc 'according to mode
if_z_and_c xor txdata,#1
shr txdata,#1 wc
if_z muxc outa,txmask
if_nz muxnc dira,txmask
add txcnt,bitticks 'ready next cnt
:wait jmpret txcode,rxcode 'run chunk of rx code, then return
mov t1,txcnt 'check if bit transmit period done
sub t1,cnt
cmps t1,#0 wc
if_nc jmp #:wait
djnz txbits,#:bit 'another bit to transmit?
jmp #transmit 'byte done, transmit next byte
'
'
' Uninitialized data
'
t1 res 1
t2 res 1
t3 res 1
rxtxmode res 1
bitticks res 1
rxmask res 1
rxbuff res 1
rxdata res 1
rxbits res 1
rxcnt res 1
rxcode res 1
txmask res 1
txbuff res 1
txdata res 1
txbits res 1
txcnt res 1
txcode res 1
{{
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% TERMS OF USE: MIT License %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%$%
%Permission is hereby granted, free of charge, to any person obtaining a copy of this %
%software and associated documentation files (the "Software"), to deal in the Software %
%without restriction, including without limitation the rights to use, copy, modify, %
%merge, publish, distribute, sublicense, and/or sell copies of the Software, and to %
%permit persons to whom the Software is furnished to do so, subject to the following %
%conditions: % %
% % %
%The above copyright notice and this permission notice shall be included in all copies %
%or substantial portions of the Software. %
% % %
%THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, %
%INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A %
%PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT %
%HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION %
%OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE %
%SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
}}