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|
#!/usr/bin/tclsh
# Part of MCU 8051 IDE ( http://http://www.moravia-microsystems.com/mcu8051ide )
############################################################################
# Copyright (C) 2007, 2008, 2009, 2010, 2011, 2012 by Martin Ošmera #
# martin.osmera@gmail.com #
# #
# Copyright (C) 2014 by Moravia Microsystems, s.r.o. #
# martin.osmera@moravia-microsystems.com #
# #
# This program is free software; you can redistribute it and#or modify #
# it under the terms of the GNU General Public License as published by #
# the Free Software Foundation; either version 2 of the License, or #
# (at your option) any later version. #
# #
# This program 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 General Public License for more details. #
# #
# You should have received a copy of the GNU General Public License #
# along with this program; if not, write to the #
# Free Software Foundation, Inc., #
# 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. #
############################################################################
# >>> File inclusion guard
if { ! [ info exists _ASMSYNTAXHIGHLIGHT_TCL ] } {
set _ASMSYNTAXHIGHLIGHT_TCL _
# <<< File inclusion guard
# --------------------------------------------------------------------------
# DESCRIPTION
# Implements syntax highlighting interface for assembly language
# --------------------------------------------------------------------------
namespace eval ASMsyntaxHighlight {
## Highlight colors and font styles - highlight tags definition
# {
# {tag_name ?foreground? ?overstrike? ?italic? ?bold?}
# }
variable highlight_tags {
{tag_char #880066 0 0 0}
{tag_hex #8800BB 0 0 0}
{tag_oct #880000 0 0 0}
{tag_dec #0055AA 0 0 0}
{tag_bin #333355 0 0 0}
{tag_constant #55AA00 0 0 0}
{tag_unknown_base #882222 0 0 0}
{tag_string #888800 0 0 0}
{tag_comment #888888 0 1 0}
{tag_control #FF0000 0 0 1}
{tag_symbol #AA00FF 0 0 1}
{tag_oper_sep #DD8800 0 0 1}
{tag_directive #8888FF 0 0 1}
{tag_label #885500 0 0 0}
{tag_instruction #0000FF 0 0 1}
{tag_sfr #0000DD 0 0 0}
{tag_indirect #DD0000 0 0 0}
{tag_imm_char #DD00AA 0 0 0}
{tag_imm_hex #AA00DD 0 0 0}
{tag_imm_oct #AA0000 0 0 0}
{tag_imm_dec #0088DD 0 0 0}
{tag_imm_bin #5555AA 0 0 0}
{tag_imm_constant #EFBC2B 0 0 0}
{tag_imm_unknown #AA3333 0 0 0}
{tag_macro #CC00DD 0 0 1}
}
# Instructions keywords
variable instructions {
ACALL ADD ADDC AJMP ANL CJNE CLR CPL DA DEC DIV DJNZ INC JB JBC JC JMP JNB JNZ SJMP JNC CALL
JZ LCALL LJMP MOV MOVC MOVX MUL NOP ORL POP PUSH RET RETI RL RLC RR RRC SETB SUBB SWAP XCH XCHD XRL
}
# SFR bits
variable spec_bits {
C Z P OV RS0 RS1 F0 AC CY PX0 PT0 PX1 PT1 PS RXD TXD INT0 INT1 T0 T1 WR RD
EX0 ET0 EX1 ET1 ES EA RI TI RB8 TB8 REN SM2 SM1 SM0 IT0 IE0 IT1 IE1 TR0 TF0 TR1 TF1
TF2 EXF2 RCLK TCLK EXEN2 TR2 CT2 CPRL2 EC PC ET2 PT2 FE
CR CCF4 CCF3 CCF2 CCF1 CCF0 PPCL PT2L PSL PT1L PX1L PT0L PX0L
}
# SFR registers and bits
variable spec_registers [concat {
A ACC B AB P0 P1 P2 P3 TL0 TL1 TH0 TH1 TMOD TCON SCON DPL PCON PSW SP DPH SBUF IE IP
R0 R1 R2 R3 R4 R5 R6 R7 DPTR DP0L DP0H
T2CON T2MOD RCAP2L RCAP2H TL2 TH2 AUXR1 WDTRST AUXR P4 DPH DPL DP1H DP1L
WDTCON EECON CLKREG ACSR IPH SADDR SADEN SPCR SPSR SPDR CKCON WDTPRG
CH CCAP0H CCAP1H CCAPL2H CCAPL3H CCAPL4H ADCLK ADCON ADDL ADDH ADCF
CL CCAP0L CCAP1L CCAPL2L CCAPL3L CCAPL4L P1M2 P3M2 P4M2
P1M1 P3M1 P4M1 SPCON SPSTA SPDAT CMOD CCAPM0 CCAPM1 CCAPM2 CCAPM3 CCAPM4
IPL1 IPH1 IPH0 BRL BDRCON KBLS KBE KBF WDTRST WDTPRG CKRL CKCON0 IPL0 CCON
} $spec_bits]
## COMPILER DIRECTIVES
# directives without arguments
variable directive_type0 {
ENDIF ENDM END ELSE EXITM LIST NOLIST
}
# directives with argument(s) but without any label
variable directive_type1 {
DSEG ISEG BSEG XSEG CSEG SKIP NAME LOCAL
}
# directives for symbol definitions
variable directive_type2 {
EQU BIT SET CODE DATA IDATA XDATA MACRO FLAG
}
# directives with argument and optional label
variable directive_type3 {
DS DW DB DBIT INCLUDE ORG IF USING BYTE NAME REPT TIMES
ELSEIF IFN ELSEIFN IFDEF ELSEIFDEF IFNDEF ELSEIFNDEF IFB ELSEIFB IFNB ELSEIFNB
}
# all known directives
variable all_directives [concat $directive_type0 $directive_type1 $directive_type2 $directive_type3]
# word operators
variable expr_instructions {
MOD SHR SHL NOT AND OR LE XOR EQ NE GT GE LT HIGH LOW
}
# symbol operators
variable expr_symbols {
= + - * / > < %
}
# control sequencies without any argument
variable controls_type0 {
NOLIST NOMOD NOOBJECT NOPAGING NOPRINT
NOSYMBOLS EJECT LIST PAGING SYMBOLS NOMACROSFIRST
NOXR NOXREF XR XREF NOSB SB RESTORE RS SA SAVE PHILIPS
NOPI PI NOTABS NOMOD51 NOBUILTIN NOMO MO MOD51 NOMACRO
NOMR LI NOLI GENONLY GO NOGEN NOGE GEN GE EJ NODB
NODEBUG DB DEBUG CONDONLY NOCOND COND
}
# control sequencies with exactly 1 argument
variable controls_type1 {
PAGEWIDTH PAGELENGTH PRINT TITLE OBJECT DATE INCLUDE
TT PW PL MR MACRO INC WARNING ERROR DA
}
# all known control sequencies
variable all_controls [concat $controls_type0 $controls_type1]
# all known control sequencies with preceeding dolar character
variable all_controls__with_dolar
# all known directives and control sequencies
variable all_directives_and_controls [concat $all_directives $all_controls]
# list of all reserved keywords
variable keyword_lists [list \
$instructions \
$directive_type0 \
$directive_type1 \
$directive_type2 \
$directive_type3 \
]
variable inline_asm ;# Is inline assembler
variable editor ;# ID of the text widget
variable lineNumber ;# Number of current line
variable lineStart ;# Index of line start
variable lineEnd ;# Index of line end
variable data ;# Content of the line
variable data_backup ;# Original content of the line
variable last_index ;# Last parse index
variable last_index_backup ;# Auxiliary variable (some index)
variable seg_0 ;# 1st field of the line
variable seg_1 ;# 2nd field of the line
variable seg_2 ;# 3rd field of the line
variable seg_0_start ;# Start index of seg_0
variable seg_1_start ;# Start index of seg_1
variable seg_2_start ;# Start index of seg_2
variable seg_0_end ;# End index of seg_0
variable seg_1_end ;# End index of seg_1
variable seg_2_end ;# End index of seg_2
variable operands_count 0 ;# Number of operands at the line
variable operand ;# Data of the current operand
variable opr_end ;# End index of the current operand
variable opr_start ;# Start index of the current operand
## List of operand types on the line (eg. '{D # DPTR}')
# Possible values are:
# - '#' : Immediate addressing
# - @$x : Indirect addressing (one of {@R0 @R1 @DPTR @A+DPTR @A+PC})
# - '/' : Inverted bit
# - 'D' : Direct addressing
# - $sfr : One of {R0 R1 R2 R3 R4 R5 R6 R7 DPTR A AB C}
variable opr_types
variable validation_L0 1 ;# Bool: Basic validation enabled
variable validation_L1 1 ;# Bool: Advancet validation enabled
## Define highlighting text tags in the given text widget
# @parm Widget text_widget - ID of the target text widget
# @parm Int fontSize - font size
# @parm String fontFamily - font family
# @parm List highlight=default - Highlighting tags definition
# @parm Bool nobold=0 - Ignore bold flag
# @return void
proc create_tags {text_widget fontSize fontFamily {highlight {}} {nobold 0}} {
variable highlight_tags ;# Highlight tags definition
# Handle arguments
if {$highlight == {}} { ;# highlighting definition
set highlight $highlight_tags
}
# Iterate over highlighting tags definition
foreach item $highlight {
# Create array of tag attributes
for {set i 0} {$i < 5} {incr i} {
set tag($i) [lindex $item $i]
}
# Foreground color
if {$tag(1) == {}} {
set tag(1) black
}
# Fonr slant
if {$tag(3) == 1} {
set tag(3) italic
} else {
set tag(3) roman
}
# Font weight
if {$tag(4) == 1 && !$nobold} {
set tag(4) bold
} else {
set tag(4) normal
}
# Tag "tag_constant" is copied as "tag_constant_def"
#+ and "tag_macro" as "tag_macro_def"
if {$tag(0) == {tag_constant}} {
lappend tag(0) {tag_constant_def}
} elseif {$tag(0) == {tag_macro}} {
lappend tag(0) {tag_macro_def}
}
# Create the tag in the target text widget
foreach tag_name $tag(0) {
$text_widget tag configure $tag_name \
-foreground $tag(1) \
-font [font create \
-overstrike $tag(2) \
-slant $tag(3) \
-weight $tag(4) \
-size -$fontSize \
-family $fontFamily \
]
}
}
# Add tag error
$text_widget tag configure tag_error -underline 1
}
## Perform syntax highlight on the given line in the given widget
# @parm Widget p_editor - Text widget
# @parm Int linenumber - Number of line to highlight
# @parm Bool inlineasm - Inline assembler
# @parm Int linestart=0 - Start index
# @parm Int lineend=end - End index
# @return Bool - result
proc highlight {p_editor linenumber {inlineasm 0} {linestart {}} {lineend {}}} {
variable editor ;# ID of the text widget
variable lineNumber ;# Number of current line
variable lineStart ;# Index of line start
variable lineEnd ;# Index of line end
variable inline_asm ;# Is inline assembler
variable seg_0 {} ;# 1st field of the line
variable seg_1 {} ;# 2nd field of the line
variable seg_2 {} ;# 3rd field of the line
variable seg_0_start ;# Start index of seg_0
variable seg_1_start ;# Start index of seg_1
variable seg_2_start ;# Start index of seg_2
variable seg_0_end ;# End index of seg_0
variable seg_1_end ;# End index of seg_1
variable seg_2_end ;# End index of seg_2
variable last_index ;# Last parse index
variable data ;# Content of the line
variable operands_count ;# Number of operand in the line
variable validation_L0 ;# Bool: Basic validation enabled
# Parse input arguments
set editor $p_editor
set lineNumber $linenumber
set inline_asm $inlineasm
if {$linestart == {}} {
set lineStart $lineNumber.0
} else {
set lineStart $lineNumber.$linestart
}
if {$lineend == {}} {
set lineEnd [$editor index [list $lineStart lineend]]
} else {
set lineEnd $lineNumber.$lineEnd
}
if {$linestart != {}} {
set start_offset $linestart
} else {
set start_offset 0
}
set data [$editor get $lineStart $lineEnd]
set operands_count 0
set opr_types {}
if {$inline_asm} {
delete_tags
}
# check if the line is not empty
if {[regexp {^\s*$} $data]} {
return 0
}
set line_length [string length $data]
if {$line_length == 0} {
return 0
}
# determinate comment field and highlight it (the last field)
set comment_start {}
if {[regexp {;} $data]} {
# remove 'string' from the line
set comment_data [hide_strings $data]
if {[regexp {;.*$} $comment_data comment_start]} {
set comment_start [string length $comment_start]
set comment_start [expr {$line_length - $comment_start}]
# remove comment and trailing space from the line
if {$comment_start == 0} {
set data {}
delete_tags
} else {
set data [string range $data 0 [expr {$comment_start - 1}]]
regsub {\s+$} $data {} data
}
incr comment_start $start_offset
}
}
# Handle line containing only comment
if {![string length $data]} {
if {!$inline_asm} {
delete_tags
}
$editor tag add tag_comment $lineNumber.$comment_start $lineEnd
return 1
}
# Determinate 1st segment of the line
regexp {^\s*[^\s]+:?} $data seg_0
if {[regexp {\w\(} $seg_0]} {
regsub {\(.*$} $seg_0 {} seg_0
}
if {[string last {:} $seg_0] != -1} {
set seg_0 [string range $seg_0 0 [string last {:} $seg_0]]
}
set seg_0_end [string length $seg_0]
regsub {^\s+} $seg_0 {} seg_0
set seg_0_start [string length $seg_0]
set seg_0_start [expr {$seg_0_end - $seg_0_start}]
set data [string replace $data 0 [expr {$seg_0_end - 1}]]
incr seg_0_end $start_offset
incr seg_0_start $start_offset
set last_index $seg_0_end
#
# SYNTAX HIGHLIGHT
#
# delete existing tags within the line
if {!$inline_asm} {
delete_tags
}
# highlight comment
if {$comment_start != {}} {
$editor tag add tag_comment $lineNumber.$comment_start $lineEnd
}
# highlight 1st and 2nd field
set seg_0_info [parse_segment $seg_0_start $seg_0_end $seg_0]
# Conditional parsing with validation
switch -- [lindex $seg_0_info 0] {
{control_0} {}
{control_1} {}
{control_incorrect} {}
{label} {
determinate_segment_1
set seg_1_info [parse_segment $seg_1_start $seg_1_end $seg_1]
switch -- [lindex $seg_1_info 0] {
{control_0} {
determinate_segment_2
put_error_on_segment 2
}
{control_1} {
determinate_segment_2
put_error_on_segment 2
}
{label} {
put_error_on_segment 1
}
{instruction} {
determinate_segment_2
parse_operands
}
{directive_3} {
determinate_segment_2
if {![string length $seg_2]} {
put_error_on_segment 1
}
set seg_1 [string tolower $seg_1]
if {$seg_1 == {db} || $seg_1 == {.db} || $seg_1 == {byte} || $seg_1 == {.byte}} {
parse_operands
} elseif {$seg_1 == {include} || $seg_1 == {.include}} {
$editor tag add tag_string \
$lineNumber.$seg_2_start \
[list $lineNumber.0 lineend]
} else {
parse_expressions
}
}
{directive_2} {
put_error_on_segment 0
}
{directive_1} {}
{directive_0} {
determinate_segment_2
if {[string length $seg_2]} {
incr seg_2_end
put_error_on_segment 2
}
}
{unknown} {
$editor tag add tag_macro \
$lineNumber.$seg_1_start $lineNumber.$seg_1_end
if {
$validation_L0 &&
([regexp {^\d} $seg_1] || ![regexp {^\w+$} $seg_1])
} then {
put_error_on_segment 1
}
determinate_segment_2
parse_operands
}
default {
put_error_on_segment 1
}
}
}
{instruction} {
determinate_segment_2
parse_operands
}
{directive_3} {
determinate_segment_2
if {![string length $seg_2]} {
put_error_on_segment 0
}
set seg_0 [string tolower $seg_0]
if {$seg_0 == {db} || $seg_0 == {.db} || $seg_0 == {byte} || $seg_0 == {.byte}} {
parse_operands
} elseif {$seg_0 == {include} || $seg_0 == {.include}} {
$editor tag add tag_string \
$lineNumber.$seg_2_start \
[list $lineNumber.0 lineend]
} else {
parse_expressions
}
}
{directive_2} {
determinate_segment_2
parse_expressions
put_error_on_segment 0
}
{directive_1} {
determinate_segment_2
parse_expressions
}
{directive_0} {
determinate_segment_1
put_error_on_segment 1
determinate_segment_2
put_error_on_segment 2
}
{unknown} {
determinate_segment_1
set seg_1_info [parse_segment $seg_1_start $seg_1_end $seg_1]
switch -- [lindex $seg_1_info 0] {
{control_0} {
determinate_segment_2
put_error_on_segment 2
}
{control_1} {
determinate_segment_2
put_error_on_segment 2
}
{label} {
put_error_on_segment 0
}
{instruction} {
put_error_on_segment 0
determinate_segment_2
parse_operands
}
{directive_3} {
put_error_on_segment 0
determinate_segment_2
set seg_1 [string tolower $seg_1]
if {$seg_1 == {db} || $seg_1 == {.db} || $seg_1 == {byte} || $seg_1 == {.byte}} {
parse_operands
} elseif {$seg_1 == {include} || $seg_1 == {.include}} {
$editor tag add tag_string \
$lineNumber.$seg_2_start \
[list $lineNumber.0 lineend]
} else {
parse_expressions
}
}
{directive_2} {
if {
$validation_L0 &&
([regexp {^\d} $seg_0] || ![regexp {^\w+$} $seg_0])
} then {
put_error_on_segment 0
}
set sg [string tolower $seg_1]
if {$sg == {macro} || $sg == {.macro}} {
$editor tag add tag_macro_def \
$lineNumber.$seg_0_start \
$lineNumber.$seg_0_end
determinate_segment_2
parse_arguments
} else {
$editor tag add tag_constant_def \
$lineNumber.$seg_0_start \
$lineNumber.$seg_0_end
determinate_segment_2
parse_expressions
}
}
{directive_1} {
put_error_on_segment 0
determinate_segment_2
parse_expressions
}
{directive_0} {
put_error_on_segment 0
determinate_segment_2
put_error_on_segment 2
}
{unknown} {
$editor tag add tag_macro $lineNumber.$seg_0_start $lineNumber.$seg_0_end
if {
$validation_L0 &&
([regexp {^\d} $seg_0] || ![regexp {^\w+$} $seg_0])
} then {
put_error_on_segment 0
}
determinate_segment_1_take_back
determinate_segment_2
parse_operands
}
default {
$editor tag add tag_macro $lineNumber.$seg_0_start $lineNumber.$seg_0_end
if {
$validation_L0 &&
([regexp {^\d} $seg_0] || ![regexp {^\w+$} $seg_0])
} then {
put_error_on_segment 0
}
}
}
}
default {}
}
return 1
}
## Remove previously defined syntax highlighting tags
# @return void
proc delete_tags {} {
variable editor ;# ID of the text widget
variable highlight_tags ;# Highlight tags definition
variable lineStart ;# Index of line start
variable lineEnd ;# Index of line end
set lineStart_truestart [$editor index [list $lineStart linestart]]
# Remove tag error, tag_constant_def and tag_macro_def
foreach tag {tag_error tag_constant_def tag_macro_def} {
$editor tag remove $tag $lineStart_truestart $lineStart_truestart+1l
}
# Remove tags according to pattern
foreach tag $highlight_tags {
$editor tag remove [lindex $tag 0] $lineStart_truestart $lineEnd
}
}
## Take back extraction of segment 1
# @return void
proc determinate_segment_1_take_back {} {
variable data ;# Content of the line
variable data_backup ;# Original content of the line
variable last_index ;# Last parse index
variable last_index_backup ;# Auxiliary variable (some index)
set data $data_backup
set last_index $last_index_backup
}
## Extract segment 1 from the line
# @return void
proc determinate_segment_1 {} {
variable seg_1 ;# 2nd field of the line
variable seg_1_start ;# Start index of seg_1
variable seg_1_end ;# End index of seg_1
variable last_index ;# Last parse index
variable data ;# Content of the line
variable data_backup ;# Original content of the line
variable last_index_backup ;# Auxiliary variable (some index)
# Line is empty
# if {![regexp {^\s*[^\s\(]+} $data seg_1]}
if {![regexp {^\s*[^\s]+} $data seg_1]} {
set seg_1 {}
set seg_1_end $last_index
set seg_1_start $last_index
# Line is not empty
} else {
set data_backup $data
set last_index_backup $last_index
set seg_1_end [string length $seg_1]
set data [string replace $data 0 [expr {$seg_1_end - 1}]]
incr seg_1_end $last_index
regsub {^\s+} $seg_1 {} seg_1
set seg_1_start [string length $seg_1]
set seg_1_start [expr {$seg_1_end - $seg_1_start}]
set last_index $seg_1_end
}
}
## Extract segment 2 from the line
# @return void
proc determinate_segment_2 {} {
variable seg_2 ;# 3rd field of the line
variable seg_2_start ;# Start index of seg_2
variable seg_2_end ;# End index of seg_2
variable last_index ;# Last parse index
variable data ;# Content of the line
# determinate the last segment of the line
set seg_2_start $last_index
if {[regexp {^\s+} $data space]} {
incr seg_2_start [string length $space]
}
regsub {^\s+} $data {} seg_2
regsub {\s+$} $seg_2 {} seg_2
set seg_2_end [string length $seg_2]
incr seg_2_end $last_index
set data {}
}
## Shorthand for 'parse_expression $seg_2 $seg_2_start $seg_2_end'
# @return void
proc parse_expressions {} {
variable seg_2 ;# 3rd field of the line
variable seg_2_start ;# Start index of seg_2
variable seg_2_end ;# End index of seg_2
parse_expression $seg_2 $seg_2_start $seg_2_end
}
## Parse given segment, highlight it and determinate its type
# @parm Int start - start column
# @parm int end - end column
# @parm String segment_data - content of segment to parse
# @return List - {segment_type expression_length} or {segment_type {}} or {{} {}}
proc parse_segment {start end segment_data} {
variable controls_type0 ;# control sequencies without any argument
variable controls_type1 ;# control sequencies with exactly 1 argument
variable keyword_lists ;# list of all reserved keywords
variable editor ;# ID of the text widget
variable lineNumber ;# Number of current line
variable lineStart ;# Index of line start
variable lineEnd ;# Index of line end
variable data ;# Content of the line
variable validation_L0 ;# Bool: Basic validation enabled
variable inline_asm ;# Bool: Is inline assembler
# Local variables
set seg_type {} ;# segment type
set expr_len 0 ;# length of expression
# Handle empty segments
if {$segment_data == {}} {
return [list $seg_type $expr_len]
}
# Convert segment data to uppre case (patterns are uppper-case)
set segment_data [string toupper $segment_data]
# Try to determinate segment type and perform highlight
set keyword $segment_data
if {[string index $keyword 0] == {.}} {
set keyword [string replace $keyword 0 0]
}
foreach keyword_list $keyword_lists \
tag {tag_instruction tag_directive tag_directive tag_directive tag_directive} \
type {instruction directive_0 directive_1 directive_2 directive_3} {
if {$type != {instruction}} {
if {[lsearch -ascii -exact $keyword_list $keyword] != -1} {
$editor tag add $tag $lineNumber.$start $lineNumber.$end
set seg_type $type
break
}
} else {
if {[lsearch -ascii -exact $keyword_list $segment_data] != -1} {
$editor tag add $tag $lineNumber.$start $lineNumber.$end
set seg_type $type
break
}
}
}
# If segment type could not be recognized -> check for labels, macro's and controls
if {$seg_type == {}} {
# Handle compiler control sequences
if {[string index $segment_data 0] == {$}} {
set segment_data [string range $segment_data 1 end]
set expr_data {}
set segment_data "$segment_data $data"
set segment_data [string trimright $segment_data { }]
set end [string length $segment_data]
incr end [expr {$start + 1}]
set ctrl_end $end
set data {}
if {[regexp {\(.*$} $segment_data expr_data]} {
set expr_len [string length $expr_data]
set expr_start [expr {$end - $expr_len - 1}]
set expr_end [expr {$expr_start + $expr_len}]
set end $expr_start
regsub {\(.*$} $segment_data {} segment_data
set segment_data [string trimright $segment_data]
}
# Control type 1
if {[lsearch -ascii -exact $controls_type1 $segment_data] != -1} {
set seg_type control_1
# Control type 0
} elseif {[lsearch -ascii -exact $controls_type0 $segment_data] != -1} {
set seg_type control_0
# Incorrect control sequence
} else {
set seg_type control_incorrect
if {$validation_L0} {
$editor tag add tag_error $lineNumber.$start $lineNumber.$end
}
}
# Puts tag "control"
$editor tag add tag_control $lineNumber.$start $lineNumber.$end
# Control sequence argument
if {$expr_data != {}} {
parse_argument $expr_start $expr_end $expr_data $start $end
if {$validation_L0 && $seg_type == {control_0}} {
$editor tag add tag_error $lineNumber.$expr_start $lineNumber.$expr_end
}
} elseif {$validation_L0 && $seg_type == {control_1}} {
$editor tag add tag_error $lineNumber.$start $lineNumber.$end
}
# Labels
} elseif {[regexp -nocase {^[^\s]*:$} $segment_data]} {
$editor tag add tag_label $lineNumber.$start $lineNumber.$end
set seg_type label
if {$inline_asm} {
if {![regexp -nocase {^\w+\$:$} $segment_data]} {
$editor tag add tag_error $lineNumber.$start $lineNumber.$end
}
} else {
if {![regexp -nocase {^[a-zA-Z]\w*:$} $segment_data]} {
$editor tag add tag_error $lineNumber.$start $lineNumber.$end
}
}
# Unknown type - possibly macro instruction
} else {
set seg_type unknown
}
}
# Return result
return [list $seg_type $expr_len]
}
## Highlight argument (eg. '("some string")')
# @parm Int start_index - start column of the argument
# @parm Int end_index - end column of the argument
# @parm String data - argument data
# @return void
proc parse_argument {start_index end_index data control_start control_end} {
variable editor ;# ID of the text widget
variable lineNumber ;# Number of current line
variable validation_L0 ;# Bool: Basic validation enabled
if {[regexp {^\(.*\)$} $data]} {
$editor tag add tag_symbol $lineNumber.$start_index $lineNumber.[expr {$start_index + 1}]
set end [expr {$end_index - 1}]
$editor tag add tag_symbol $lineNumber.$end $lineNumber.$end_index
$editor tag add tag_string $lineNumber.[expr {$start_index + 1}] $lineNumber.$end
} else {
if {$validation_L0} {
$editor tag add tag_error \
$lineNumber.$control_start $lineNumber.$control_end
}
}
}
## Tag the given segment as error
# @parm Int segment_number - number of the target segment
# @return void
proc put_error_on_segment {segment_number} {
variable editor ;# ID of the text widget
variable lineNumber ;# Number of current line
variable validation_L0 ;# Bool: Basic validation enabled
variable seg_0_start ;# Start index of seg_0
variable seg_1_start ;# Start index of seg_1
variable seg_2_start ;# Start index of seg_2
variable seg_0_end ;# End index of seg_0
variable seg_1_end ;# End index of seg_1
variable seg_2_end ;# End index of seg_2
if {!$validation_L0} {
return
}
# Determinate start and end index
switch -- $segment_number {
0 {
set start $seg_0_start
set end $seg_0_end
}
1 {
set start $seg_1_start
set end $seg_1_end
}
2 {
set start $seg_2_start
set end $seg_2_end
}
}
# Add error tag
$editor tag add tag_error $lineNumber.$start $lineNumber.$end
}
## Parse attributes in defintion of macro instruction
# @retunr void
proc parse_arguments {} {
variable editor ;# ID of the text widget
variable lineNumber ;# Number of current line
variable seg_2_start ;# Start index of seg_2
variable seg_2 ;# 3rd field of the line
variable validation_L0 ;# Bool: Basic validation enabled
if {[regexp {^\s*$} $seg_2]} {return 0}
while {1} {
# Handle redutant commas
while {1} {
if {![regexp {^\s*\,} $seg_2]} {break}
set space_len 0
if {[regexp {^\s+} $seg_2 space_len]} {
set space_len [string length $space_len]
}
incr seg_2_start $space_len
set seg_2 [string range $seg_2 [expr {$space_len + 1}] end]
$editor tag add tag_oper_sep \
$lineNumber.$seg_2_start \
$lineNumber.[expr {$seg_2_start + 1}]
if {$validation_L0} {
$editor tag add tag_error \
$lineNumber.$seg_2_start \
$lineNumber.[expr {$seg_2_start + 1}]
}
incr seg_2_start
}
# Determinate argument
if {![regexp {^[^\,]+} $seg_2 argument]} {break}
set argument_len_org [string length $argument]
set seg_2 [string range $seg_2 $argument_len_org end]
set argument [string trimleft $argument]
set argument_len [string length $argument]
incr seg_2_start [expr {$argument_len_org - $argument_len}]
# Highlight argument
$editor tag add tag_constant \
$lineNumber.$seg_2_start \
$lineNumber.[expr {$seg_2_start + $argument_len}]
set argument [string trimright $argument]
if {$validation_L0 && ([regexp {^\d} $argument] || ![regexp {^\w+$} $argument])} {
$editor tag add tag_error \
$lineNumber.$seg_2_start \
$lineNumber.[expr {$seg_2_start + $argument_len}]
}
incr seg_2_start $argument_len
# highlight argument separator
if {[string index $seg_2 0] == {,}} {
set sep_end $seg_2_start
incr sep_end
$editor tag add tag_oper_sep $lineNumber.$seg_2_start $lineNumber.$sep_end
if {$validation_L0 && ![regexp {[\w$]} $seg_2]} {
$editor tag add tag_error $lineNumber.$seg_2_start $lineNumber.$sep_end
}
incr seg_2_start
set seg_2 [string range $seg_2 1 end]
}
}
}
## Highlight all operands (segment 2) and their separators
# @return void
proc parse_operands {} {
variable editor ;# ID of the text widget
variable lineNumber ;# Number of current line
variable seg_2_start ;# Start index of seg_2
variable seg_2 ;# 3rd field of the line
variable operands_count ;# Number of operands at the line
variable operand ;# Data of the current operand
variable opr_end ;# End index of the current operand
variable opr_start ;# Start index of the current operand
variable opr_types ;# List of operand types
variable validation_L0 ;# Bool: Basic validation enabled
variable validation_L1 ;# Bool: Advancet validation enabled
if {[regexp {^\s*$} $seg_2]} {return 0}
set operands_count 0
set opr_types {}
# split data into single operands
set i 0
set last_index $seg_2_start
set original_data $seg_2
set data [hide_strings $seg_2]
while {1} {
# Handle redutant commas
while {1} {
if {![regexp {^\s*\,} $data]} {break}
set space_len 0
if {[regexp {^\s+} $data space_len]} {
set space_len [string length $space_len]
}
incr last_index $space_len
set data [string range $data [expr {$space_len + 1}] end]
set original_data [string range $original_data [expr {$space_len + 1}] end]
$editor tag add tag_oper_sep \
$lineNumber.$last_index \
$lineNumber.[expr {$last_index + 1}]
if {$validation_L0} {
$editor tag add tag_error \
$lineNumber.$last_index \
$lineNumber.[expr {$last_index + 1}]
}
incr last_index
}
# gain operand data
if {![regexp {^[^\,]+} $data operand]} {break}
set operand_len [string length $operand]
set data [string range $data $operand_len end]
set operand [string range $original_data 0 [expr {$operand_len - 1}]]
set original_data [string range $original_data $operand_len end]
# determinate start index
if {[regexp {^\s+} $operand space]} {
set space_len [string length $space]
set opr_start [expr {$last_index + $space_len}]
set operand [string range $operand $space_len end]
} else {
set opr_start $last_index
}
# determinate end index
if {[regexp {\s+$} $operand space]} {
set space_len [string length $space]
set opr_end [expr {$operand_len - $space_len}]
set operand [string range $operand 0 $opr_end]
} else {
set opr_end $operand_len
}
incr opr_end $last_index
incr last_index $operand_len
set operand [string trimright $operand "\t "]
if {$validation_L1} {
add_aperand_to__opr_types
}
highlight_operand
incr operands_count
# highlight operand separator
if {[string index $data 0] == {,}} {
set sep_end $last_index
incr sep_end
$editor tag add tag_oper_sep $lineNumber.$last_index $lineNumber.$sep_end
if {$validation_L0 && ![regexp {[\w$]} $data]} {
$editor tag add tag_error $lineNumber.$last_index $lineNumber.$sep_end
}
incr last_index
set data [string range $data 1 end]
set original_data [string range $original_data 1 end]
}
incr i
}
}
## Append current operand (var. operand) to list of operand types
#+ on current line
# @return void
proc add_aperand_to__opr_types {} {
variable opr_types ;# List of operand types
variable operand ;# Data of the current operand
set opr [string toupper $operand]
switch -- [string index $opr 0] {
{#} {lappend opr_types {#}}
{/} {lappend opr_types {/}}
{@} {lappend opr_types $opr}
default {
if {[lsearch -ascii -exact {R0 R1 R2 R3 R4 R5 R6 R7 DPTR A AB C} $opr] != -1} {
lappend opr_types $opr
} else {
lappend opr_types {D}
}
}
}
}
## Highlight current operand
# @return void
proc highlight_operand {} {
variable editor ;# ID of the text widget
variable operand ;# Data of the current operand
variable opr_end ;# End index of the current operand
variable opr_start ;# Start index of the current operand
variable spec_registers ;# SFR registers
variable spec_bits ;# SFR bits
variable validation_L0 ;# Bool: Basic validation enabled
variable inline_asm ;# Is inline assembler
variable lineNumber ;# Number of current line
## Determinate addressing type
set addr_type [string index $operand 0]
# Immediate adresing
if {$addr_type == {#}} {
set operand [string range $operand 1 end]
# Immediate char value
if {[string index $operand 0] == {'} && [string index $operand end] == {'}} {
set len [string length $operand]
if {$validation_L0 && $len < 3} {
put_tag_on_operand tag_error
}
if {$len > 3 && [string index $operand 1] != "\\"} {
put_tag_on_operand tag_string
} else {
put_tag_on_operand tag_imm_char
}
# Label in inline assembler
} elseif {[regexp {^\w+\$$} $operand]} {
put_tag_on_operand tag_imm_constant
# Operand has no value => incorrect operand
} elseif {[regexp { |\(|\)|\+|\-|\%|\=|\>|\<|\*|\/} $operand]} {
parse_expression $operand $opr_start $opr_end
$editor tag add tag_symbol \
$lineNumber.$opr_start $lineNumber.$opr_start+1c
} elseif {
$validation_L0 &&
([string length $operand] == 0 || ![regexp {^(\?\?)?[\w\$\.\\]+$} $operand])
} then {
put_tag_on_operand tag_error
# Operand value determinated successfully
} else {
parse_operand_auxiliary2 {
tag_imm_unknown tag_imm_hex tag_imm_dec
tag_imm_oct tag_imm_bin tag_imm_char
tag_imm_constant tag_string
}
}
# Indirect adresing
} elseif {$addr_type == {@}} {
set operand [string range $operand 1 end]
put_tag_on_operand tag_indirect
# Check for operand validity
if {!$validation_L0} {return}
set operand [string toupper $operand]
if {
$operand != {R0} &&
$operand != {R1} &&
$operand != {DPTR} &&
$operand != {A+PC} &&
$operand != {A+DPTR}
} then {
put_tag_on_operand tag_error
}
# Direct bit adresing
} elseif {$addr_type == {/}} {
set operand [string range $operand 1 end]
if {[regexp {\(|\)|\+|\-|\%|\=|\>|\<|\*|\/} $operand]} {
parse_expression $operand $opr_start $opr_end
$editor tag add tag_symbol \
$lineNumber.$opr_start $lineNumber.$opr_start+1c
} elseif {
$validation_L0 &&
([string length $operand] == 0 || ![regexp {^'?[\w\.]+'?$} $operand])
} then {
# Operand has no value => incorrect operand
put_tag_on_operand tag_error
} else {
parse_operand_auxiliary $spec_bits {
tag_unknown_base tag_hex tag_dec
tag_oct tag_bin tag_char
tag_constant tag_string
}
}
# Another kind of direct adresing
} else {
parse_operand_auxiliary $spec_registers {
tag_unknown_base tag_hex tag_dec
tag_oct tag_bin tag_char
tag_constant tag_string
}
}
}
## Auxiliary procedure for procedure highlight_operand
# @parm List SFR_set - List of SFR keywords
# @parm List tag_list - List of tags for procedure parse_operand_auxiliary2
# @return void
proc parse_operand_auxiliary {SFR_set tag_list} {
variable operand ;# Data of the current operand
# SFR
if {[lsearch -ascii -exact $SFR_set [string toupper $operand]] != -1} {
put_tag_on_operand tag_sfr
# Something else than SFR
} else {
parse_operand_auxiliary2 $tag_list
}
}
## Auxiliary procedure for procedures highlight_operand and parse_operand_auxiliary
# @parm List tag_list - list of text tags (see code)
# @return void
proc parse_operand_auxiliary2 {tag_list} {
variable operand ;# Data of the current operand
variable opr_start ;# Start index of the current operand
variable opr_end ;# End index of the current operand
variable editor ;# ID of the text widget
variable lineNumber ;# Number of current line
variable spec_registers ;# SFR registers
variable validation_L0 ;# Bool: Basic validation enabled
variable inline_asm ;# Is inline assembler
# Label in inline assembler
if {$inline_asm && [regexp {^\w+\$$} $operand]} {
put_tag_on_operand [lindex $tag_list 6]
# Expression
} elseif {[regexp {\(|\)|\+|\-|\%|\=|\>|\<|\*|\/} $operand]} {
parse_expression $operand $opr_start $opr_end
# Dot notation (bit addressing)
} elseif {[regexp {^\w+\.\w+$} $operand]} {
set opr [split $operand {.}]
set operand [lindex $opr 0]
set opr_true_end $opr_end
set opr_end $opr_start
incr opr_end [string length $operand]
parse_operand_auxiliary $spec_registers $tag_list
set opr_start [expr {$opr_end + 1}]
$editor tag add tag_symbol $lineNumber.$opr_end $lineNumber.$opr_start
set opr_end $opr_true_end
set operand [lindex $opr 1]
parse_operand_auxiliary2 $tag_list
# Direct value
} elseif {[regexp {^(\d|')} $operand]} {
# gain information about the openand (radix and decimal value)
set opr_info [which_radix 0 $operand]
set opr_base [lindex $opr_info 0]
set opr_in_dec [lindex $opr_info 1]
# Radix determinated incorrectly => unknown number
if {$opr_base == {}} {
put_tag_on_operand [lindex $tag_list 0]
if {$validation_L0 && ![regexp {^\d+$} $operand]} {
put_tag_on_operand tag_error
}
# Radix determinated correctly - continue normaly
} else {
# check for allowed operand value range
if {$validation_L0 && $opr_in_dec == {error}} {
## Operand value is invalid => incorrect operand
put_tag_on_operand tag_error
} else {
if {$validation_L0 && ($opr_in_dec > 65535 || $opr_in_dec < 0)} {
## Operand value is out of range => incorrect operand
put_tag_on_operand tag_error
}
}
# highlight according to numeric base
switch -- $opr_base {
{hex} {put_tag_on_operand [lindex $tag_list 1]}
{dec} {put_tag_on_operand [lindex $tag_list 2]}
{oct} {put_tag_on_operand [lindex $tag_list 3]}
{bin} {put_tag_on_operand [lindex $tag_list 4]}
{ascii} {put_tag_on_operand [lindex $tag_list 5]}
{string} {put_tag_on_operand [lindex $tag_list 7]}
}
}
# Defined as a symbolic name
} else {
put_tag_on_operand [lindex $tag_list 6]
if {
$validation_L0 && ($operand != {$}) && ![regexp {^(\?\?)?\w+$} $operand]
} then {
put_tag_on_operand tag_error
}
}
}
## Highlight current operand by the given tag
# @parm String tag_name - tag name
# @return void
proc put_tag_on_operand {tag_name} {
variable lineNumber ;# Number of current line
variable opr_end ;# End index of the current operand
variable opr_start ;# Start index of the current operand
variable editor ;# ID of the text widget
$editor tag add $tag_name $lineNumber.$opr_start $lineNumber.$opr_end
}
## Determinate numeric base of the given number
# @parm Bool norange - 1 == determinate decimal value (sometimes...) and validate it (see code)
# @parm String number - number to analyze
# @return List - {base decimal_value} or {base "error"}
proc which_radix {norange number} {
# Handle prefix notation for hexadecimal numbers, like 0xfa
if {
[string index $number 0] == {0}
&&
([string index $number 1] == {x} || [string index $number 1] == {X})
&&
[string is xdigit [string index $number 2]]
} then {
set number [string replace $number 0 1]
append number {h}
}
set original_len [string length $number]
set len [string length [string trimleft $number {0}]]
if {$original_len > 1 && $len == 1} {
incr len
}
incr len -1
set radix [string index $number end]
set number [string range $number 0 {end-1}]
set dec_val error
set base {}
# Character or string
if {$radix == {'}} {
if {[string index $number 0] == {'}} {
set number [string range $number 1 end]
set base {ascii}
if {[string length $number] == 1 || [string index $number 0] == "\\"} {
set dec_val 0
} elseif {[string length $number] > 1} {
set base {string}
set dec_val 0
}
}
# Regular numbers
} else {
set radix [string tolower $radix]
switch -- $radix {
{h} { ;# Hexadecimal
set base hex
if {$norange || ($len <= 4 && $len >= 1)} {
if {[regexp {^[A-Fa-f0-9]*$} $number]} {
set dec_val 0
}
}
}
{d} { ;# Decimal
set base dec
if {$norange || ($len <= 5 && $len >= 1)} {
if {[regexp {^[0-9]*$} $number]} {
set dec_val $number
}
}
}
{o} { ;# Octal
set base oct
if {$norange} {
if {[regexp {^[0-7]*$} $number]} {
set dec_val 0
}
} elseif {$len <= 6 && $len >= 1} {
if {[regexp {^[0-7]*$} $number]} {
if {$len != 3} {
set dec_val 0
} else {
if {[string index $number 0] <= 3} {
set dec_val 0
}
}
}
}
}
{q} { ;# Octal
set base oct
if {$norange} {
if {[regexp {^[0-7]*$} $number]} {
set dec_val 0
}
} elseif {$len <= 6 && $len >= 1} {
if {[regexp {^[0-7]*$} $number]} {
if {$len != 3} {
set dec_val 0
} else {
if {[string index $number 0] <= 3} {
set dec_val 0
}
}
}
}
}
{b} { ;# Binary
set base bin
if {$norange || ($len <= 16 && $len >= 1)} {
if {[regexp {^[01]*$} $number]} {
set dec_val 0
}
}
}
default { ;# Default
set dec_val {}
}
}
}
# done ...
return [list $base $dec_val]
}
## Highlight expressions (eg. '( 10d - X MOD 55h)')
# @parm String data - expression to highlight
# @parm Int start_index - expresssion start index
# @parm Int end_index - expresssion end index
# @return void
proc parse_expression {data start_index end_index} {
variable editor ;# ID of the text widget
variable lineNumber ;# Number of current line
variable expr_symbols ;# symbol operators
variable expr_instructions ;# word operators
variable validation_L0 ;# Bool: Basic validation enabled
variable validation_L1 ;# Bool: Advancet validation enabled
# Adjust data to fit the given boundaries
set data_len [string length $data]
set dif [expr {$end_index - $start_index - $data_len}]
if {$dif != 0} {
set space [string repeat { } $dif]
set data $space$data
}
# Remove strings
set e_idx 0
while {1} {
if {![regexp -start $e_idx -- {'[^']*'} $data string_data]} {
break
}
set len [string length $string_data]
set s_idx [string first {'} $data $e_idx]
set e_idx [expr {$s_idx + $len}]
if {$len > 2} {
set data [string replace $data \
[expr {$s_idx + 1}] [expr {$e_idx - 2}] \
[string repeat { } [expr {$len - 2}]] \
]
}
}
# remove and highlight '('
set opened_par 0
while {1} {
set symbol_idx [string first {(} $data]
if {$symbol_idx == -1} {break}
incr opened_par
set data [string replace $data $symbol_idx $symbol_idx { }]
incr symbol_idx $start_index
$editor tag add tag_symbol $lineNumber.$symbol_idx $lineNumber.[expr {$symbol_idx + 1}]
}
# remove and highlight ')'
while {1} {
set symbol_idx [string first {)} $data]
if {$symbol_idx == -1} {break}
incr opened_par -1
set data [string replace $data $symbol_idx $symbol_idx { }]
incr symbol_idx $start_index
$editor tag add tag_symbol $lineNumber.$symbol_idx $lineNumber.[expr {$symbol_idx + 1}]
}
# chcek if parenthesies are balanced
if {$validation_L0 && $opened_par != 0} {
$editor tag add tag_error $lineNumber.$start_index $lineNumber.$end_index
}
# Highlight exprression symbols (+1 chars) and remove them from the string
set adjusted_data [string toupper $data]
regsub -all {\t} $adjusted_data { } adjusted_data
append adjusted_data { }
foreach symbol $expr_instructions {
while {1} {
set symbol_idx [string first " $symbol " $adjusted_data]
if {$symbol_idx == -1} {break}
set original_symbol_idx $symbol_idx
set space_len [string length $symbol]
incr space_len 1
set symbol_end_index $symbol_idx
incr symbol_end_index $space_len
set symbol_end_index_org_1 [expr {$symbol_end_index + 1}]
incr space_len
set space [string repeat { } $space_len]
set adjusted_data [string replace $adjusted_data $symbol_idx $symbol_end_index $space]
set data [string replace $data $symbol_idx $symbol_end_index $space]
incr symbol_idx $start_index
incr symbol_end_index $start_index
$editor tag add tag_symbol $lineNumber.$symbol_idx $lineNumber.$symbol_end_index
if {$validation_L1} {
set tmp [string range $data $symbol_end_index_org_1 end]
set tmp [string toupper [string trim $tmp]]
if {![string length $tmp]} {
$editor tag add tag_error \
$lineNumber.[expr {$symbol_idx + 1}] \
$lineNumber.$symbol_end_index
} else {
foreach smb $expr_instructions {
if {![string first $smb $tmp]} {
$editor tag add tag_error \
$lineNumber.[expr {$symbol_idx + 1}] \
$lineNumber.$symbol_end_index
break
}
}
}
}
}
}
# Highlight expression symbols (1 char) and remove them from the string
foreach symbol $expr_symbols {
while {1} {
set symbol_idx [string first $symbol $data]
if {$symbol_idx == -1} {break}
set original_symbol_idx $symbol_idx
set symbol_idx_org_1 [expr {$symbol_idx + 1}]
set data [string replace $data $symbol_idx $symbol_idx { }]
incr symbol_idx $start_index
set symbol_idx_1 [expr {$symbol_idx + 1}]
$editor tag add tag_symbol $lineNumber.$symbol_idx $lineNumber.$symbol_idx_1
if {
$validation_L0 && (
!$original_symbol_idx
||
![regexp {^\s*((\'\\?[^']+\')|\w|\$)} [string range $data $symbol_idx_org_1 end]]
)
} then {
$editor tag add tag_error \
$lineNumber.$symbol_idx \
$lineNumber.$symbol_idx_1
}
}
}
# Highlight other parts
set last_index $start_index
set original_data $data
set data [hide_strings $data]
while {1} {
if {![regexp {[^\s]+} $data value]} {break}
set value_S_idx [string first $value $data]
set value_len [string length $value]
set value_E_idx $value_len
incr value_E_idx $value_S_idx
set value [string range $original_data $value_S_idx $value_E_idx]
set data [string range $data $value_E_idx end]
set original_data [string range $original_data $value_E_idx end]
set tmp_idx $value_E_idx
incr value_S_idx $last_index
incr value_E_idx $last_index
incr last_index $tmp_idx
highlight_value [string trimright $value] $value_S_idx $value_E_idx
}
}
## Highlight constant values
# @parm String data - string to highlight
# @parm Int start_index - start index
# @parm Int end_index - end index
# @return void
proc highlight_value {data start_index end_index} {
variable editor ;# ID of the text widget
variable lineNumber ;# Number of current line
variable validation_L0 ;# Bool: Basic validation enabled
variable spec_registers ;# SFR registers
# Dot notation -- bit addressing
if {[regexp {^\w+\.\w+$} $data]} {
set data [split $data {.}]
set end_index_org $end_index
set end_index $start_index
incr end_index [string length [lindex $data 0]]
highlight_value [lindex $data 0] $start_index $end_index
$editor tag add tag_symbol $lineNumber.$end_index $lineNumber.[expr {$end_index + 1}]
incr end_index
highlight_value [lindex $data 1] $end_index $end_index_org
return
} elseif {[regexp {^(\d|')} $data]} {
# Gain information about the value
set opr_info [which_radix 1 [$editor get $lineNumber.$start_index $lineNumber.$end_index]]
set opr_base [lindex $opr_info 0]
set opr_in_dec [lindex $opr_info 1]
# Highlight value according to info
if {$opr_base == {}} {
$editor tag add tag_unknown_base $lineNumber.$start_index $lineNumber.$end_index
if {$validation_L0 && ![regexp {^[0-9A-Fa-f]+$} $data]} {
$editor tag add tag_error $lineNumber.$start_index $lineNumber.$end_index
}
return
}
if {$validation_L0 && $opr_in_dec == {error}} {
$editor tag add tag_error $lineNumber.$start_index $lineNumber.$end_index
}
# Highlight according to numeric base
switch -- $opr_base {
{hex} { ;# Hexadecimal
$editor tag add tag_hex $lineNumber.$start_index $lineNumber.$end_index
}
{dec} { ;# Decimal
$editor tag add tag_dec $lineNumber.$start_index $lineNumber.$end_index
}
{oct} { ;# Octal
$editor tag add tag_oct $lineNumber.$start_index $lineNumber.$end_index
}
{bin} { ;# Binary
$editor tag add tag_bin $lineNumber.$start_index $lineNumber.$end_index
}
{ascii} { ;# Char
$editor tag add tag_char $lineNumber.$start_index $lineNumber.$end_index
}
{string} { ;# String
$editor tag add tag_string $lineNumber.$start_index $lineNumber.$end_index
}
}
return
}
# Constant
if {[lsearch -ascii -exact $spec_registers [string toupper $data]] != -1} {
set tag tag_sfr
} else {
set tag tag_constant
}
$editor tag add $tag $lineNumber.$start_index $lineNumber.$end_index
if {$validation_L0 && ![regexp {^(((\?\?)?\w+)|\$)$} $data]} {
$editor tag add tag_error $lineNumber.$start_index $lineNumber.$end_index
}
}
## Replace all single quoted string with underscores (''abc'' -> '_____')
# @parm String data - input data
# @return String - output data
proc hide_strings {data} {
# Return string which dowsn't contain '''
if {[string first {'} $data] == -1} {return $data}
# Perform replacement
while {1} {
if {![regexp {'[^']*'} $data string]} {
break
}
regsub {'[^']*'} $data [string repeat {_} \
[string length $string] \
] data
}
# Return result
return $data
}
}
# Initialize some namespace variables
foreach item ${::ASMsyntaxHighlight::all_controls} {
lappend ::ASMsyntaxHighlight::all_controls__with_dolar "\$$item"
}
# >>> File inclusion guard
}
# <<< File inclusion guard
|
