Mercurial > hg > index.cgi

--- a/docs/Makefile	Tue Jul 14 23:12:24 2015 -0600
+++ b/docs/Makefile	Wed Jul 15 19:54:57 2015 -0600
@@ -6,6 +6,6 @@
 	rm -f manual.docbook.html

 maint:
-	hg rm manual/* || true
+	hg rm --force manual/* || true
 	$(MAKE) all
 	hg add manual/*
--- a/docs/manual.docbook.sgml	Tue Jul 14 23:12:24 2015 -0600
+++ b/docs/manual.docbook.sgml	Wed Jul 15 19:54:57 2015 -0600
@@ -284,6 +284,9 @@
 on the 6309 processor. This is the default mode; this option is provided for
 completeness and to override preset command arguments.
 </para>
+<para>
+This option is the same as if the first line of the source code is "PRAGMA 6309".
+</para>
 </listitem>
 </varlistentry>

@@ -302,7 +305,8 @@
 <listitem>
 <para>
 This will cause the assembler to reject instructions that are only available
-on the 6309 processor.
+on the 6309 processor. This actually has the effect of starting the assembler
+as though the first line of the source is "PRAGMA 6809".
 </para>
 </listitem>
 </varlistentry>
@@ -446,6 +450,16 @@
 </listitem>
 </varlistentry>

+<varlistentry>
+<term><option>-t WIDTH</option></term>
+<term><option>--tabs=WIDTH</option></term>
+<listitem>
+<para>
+Specifies the handling of tabs in listing files. <option>--tabs=0</option>
+disables tab expansion. <option>--tabs=8</option> is the default setting.
+</para>
+</listitem>
+</varlistentry>

 <varlistentry>
 <term><option>--help</option></term>
@@ -860,6 +874,19 @@
 </varlistentry>

 <varlistentry>
+<term>REORG</term>
+<listitem>
+<para>
+Sets the assembly address to the value it had immediately prior to the
+previous ORG statement. It is used to continue assembly after some
+specification that required an additional ORG. This directive is primarily
+intended for MACRO-80c compatibility. Consider using alternatives in
+modern code.
+</para>
+</listitem>
+</varlistentry>
+
+<varlistentry>
 <term><parameter>sym</parameter> EQU <parameter>expr</parameter></term>
 <term><parameter>sym</parameter> = <parameter>expr</parameter></term>
 <listitem>
@@ -1007,6 +1034,16 @@
 </varlistentry>

 <varlistentry>
+<term>IFPRAGMA <parameter>pragma</parameter></term>
+<listitem>
+<para>
+If <parameter>pragma</parameter> is in effect, the condition will be considered true.
+</para>
+</listitem>
+</varlistentry>
+
+
+<varlistentry>
 <term>IFNDEF <parameter>sym</parameter></term>
 <listitem>
 <para>If <parameter>sym</parameter> is not defined at this point in the assembly
@@ -1664,6 +1701,42 @@

 </listitem>

+</varlistentry>
+
+<varlistentry>
+<term>6809</term>
+<listitem>
+<para>
+This pragma allows you to mark a section of code as 6809-only. In ths mode,
+the assembler will throw an error if any 6309 instructions are used.
+</para>
+</listitem>
+</varlistentry>
+
+<varlistentry>
+<term>6309</term>
+<listitem>
+<para>
+This pragma enables the use of 6309 instructions and disables any 6809 specific
+instructions. It also changes the cycle count listing output (if selected)
+to display 6309 timings.
+</para>
+</listitem>
+</varlistentry>
+
+<varlistentry>
+<term>6809conv</term>
+<term>6309conv</term>
+<listitem>
+<para>
+These pragmas enable convenience instructions extending the 6809 and 6309
+instruction sets respectively. For more information, see
+<xref linkend="convinst">.
+</para>
+</listitem>
+</varlistentry>
+
+
 <varlistentry>
 <term>index0tonone</term>
 <listitem>
@@ -1901,6 +1974,78 @@
 </listitem>
 </varlistentry>

+<varlistentry>
+<term>qrts</term>
+<listitem>
+<para>
+
+Enables the use of the ?RTS branch target. ?RTS is implemented to maintain
+compatibility with the MACRO-80c assembler.  It works by searching backward
+in the code for an RTS instruction.  If none is found, it inverts the branch
+logic and inserts an RTS following the branch instruction.  Below you can
+see how a BMI (2B xx) has been assembled as a BPL *+1 (2A 01) to skip over an
+inserted RTS (39).
+</para>
+<programlisting>
+1D1E 7D1D1D            TST   WHICH1
+1D21 2A0139            BMI   ?RTS
+1D24 BD1D65            JSR   INV
+</programlisting>
+</listitem>
+</varlistentry>
+
+<varlistentry>
+<term>m80ext</term>
+<listitem>
+<para>
+
+This pragma (along with pragma qrts) enables some uncommon behaviors to
+accomodate The Micro Works MACRO-80c assembler from 1982.  This assembler
+was used by a number of notable TRS-80 Color Computer applications and the
+goal of this pragma is to allow them to build identical binaries from
+unmodified, vintage source code.
+</para>
+<para>
+
+In m80ext mode, the handling of the "END" pseudo-op changes when used inside
+an include file.  Instead of terminating all assembly, it merely stops
+processing of the current include file (this behavior matches the original
+Motorola 6809 assembler).  In addition, loading an ASCII value with a single
+quote (e.g., LDA #'N) is extended to 16-bit registers (e.g., LDD #'NO).
+LWASM normally supports this via double quote and that is the proper use in
+modern code.  Finally, the FCC pseudo-op is extended to handle FCB-like
+behavior after the closing delimiter:
+</para>
+<programlisting>
+                       FCC "Greetings from 1982",13,0
+</programlisting>
+</listitem>
+</varlistentry>
+
+
+
+<varlistentry>
+<term>testmode</term>
+<listitem>
+<para>
+
+This pragma is intended for internal testing purposes. In testmode, the
+assembler searches for a specially-formatted comment starting with a
+semicolon followed by a period.  Immediately afterward are a list of hex
+bytes that the assembler is expected to generate.  Likewise, if the
+assembler is expected to throw an error or warning on a given line, you can
+check by specifying "E:" followed by the error number.  In this case the
+error is ignored and the assembler continues ignoring the line in question.
+
+</para>
+<programlisting>
+1D1E 7D1D1D            TST   WHICH1    ;.7d1d1d
+1D21 2A0139            BMI   ?RTS      ;.2a0139
+1D24 1D24              FDB   *         ;.1d24
+1D26                   xyz   INV       ;.E:32    (Error 32 is "Bad opcode")
+</programlisting>
+</listitem>
+</varlistentry>

 </variablelist>

@@ -1924,6 +2069,74 @@

 </section>

+<section id="convinst">
+<title id="convinsttitle">Convenience Instructions</title>
+<para>
+
+Similar to the 6800 compatibility instructions (pragma 6800compat) these
+pragma 6809conv and pragma 6309conv enable convenience extensions to the
+6809 and 6309 instruction set.  Originally intended for compatibility with
+the MACRO-80c assembler, these have proven useful in large codebases that
+target both the 6809 and the 6309.
+</para>
+
+<para>
+
+The 6809 extensions are straightforward with the exception of "TSTD" which
+assembles as "STD -2,S".  A benefit of using these is they will "just work"
+and take on their 6309 equivalent when you enable 6309 assembly mode.
+Supported instructions: ASRD, CLRD,   COMD,   LSLD,   LSRD,   NEGD,   TSTD.
+</para>
+<para>
+
+6309 extensions are based on common patterns described by Chris Burke and
+Darren Atkinson in their 6309 documentation and include the following
+instructions: ASRQ,   CLRQ,   COMQ,   LSLE,   LSLF,   LSLQ,   LSRQ,   NEGE,
+   NEGF,   NEGW,   NEGQ,   TSTQ.
+</para>
+</section>
+
+<section>
+<title>Cycle Counts</title>
+<para>
+
+The following options for displaying cycle counts in listings are provided.
+These options are enabled from pragmas on the command line or in the
+assembly files themselves.  For compatibility with other assemblers you can
+use the "OPT" keyword in addition to "PRAGMA."
+</para>
+
+<programlisting>
+opt c  - enable cycle counts: [8]
+opt cd - enable detailed cycle counts breaking down addressing modes: [5+3]
+opt ct - show a running subtotal of cycles
+opt cc - clear the running subtotal
+</programlisting>
+
+<para>
+
+The assembler supports both 6809 as well as native-mode 6309 cycle counts.
+In 6309 mode the counts are displayed in parenthesis instead of brackets.
+In addition, some operations have a variable cycle count.  In this case a
+"+?" is displayed to alert the reader.  Sample output is shown below.
+</para>
+
+<programlisting>
+266f 7d25e2     (window.asm):00313 [7]     7       move   tst   putflg
+2672 2602       (window.asm):00314 [5]     12             bne   a@
+2674 1e13       (window.asm):00315 [8]     20             exg   x,u
+2676 0dd6       (window.asm):00316 [6]     26      a@     tst   is6309
+2678 2618       (window.asm):00317 [5]     31             bne   exit@
+                (window.asm):00318                        opt   6309
+267a 10860085   (window.asm):00319 (4)     35      b@     ldw   #133
+267e 113813     (window.asm):00320 (6+?)   41             tfm   x+,u+
+2681 30881b     (window.asm):00321 (4+1)   46             leax  27,x
+2684 33c81b     (window.asm):00322 (4+1)   51             leau  27,u
+2687 4a         (window.asm):00323 (1)     52             deca
+2688 26f0       (window.asm):00324 (5)     57             bne   b@
+</programlisting>
+</section>
+
 </chapter>

 <chapter>
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/docs/manual/c1001.html	Wed Jul 15 19:54:57 2015 -0600
@@ -0,0 +1,270 @@
+<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
+<HTML
+><HEAD
+><TITLE
+>Libraries and LWAR</TITLE
+><META
+NAME="GENERATOR"
+CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
+REL="HOME"
+TITLE="LW Tool Chain"
+HREF="index.html"><LINK
+REL="PREVIOUS"
+TITLE="Format Specific Linking Notes"
+HREF="x986.html"><LINK
+REL="NEXT"
+TITLE="Object Files"
+HREF="c1063.html"></HEAD
+><BODY
+CLASS="CHAPTER"
+BGCOLOR="#FFFFFF"
+TEXT="#000000"
+LINK="#0000FF"
+VLINK="#840084"
+ALINK="#0000FF"
+><DIV
+CLASS="NAVHEADER"
+><TABLE
+SUMMARY="Header navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
+><TH
+COLSPAN="3"
+ALIGN="center"
+>LW Tool Chain</TH
+></TR
+><TR
+><TD
+WIDTH="10%"
+ALIGN="left"
+VALIGN="bottom"
+><A
+HREF="x986.html"
+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="80%"
+ALIGN="center"
+VALIGN="bottom"
+></TD
+><TD
+WIDTH="10%"
+ALIGN="right"
+VALIGN="bottom"
+><A
+HREF="c1063.html"
+ACCESSKEY="N"
+>Next</A
+></TD
+></TR
+></TABLE
+><HR
+ALIGN="LEFT"
+WIDTH="100%"></DIV
+><DIV
+CLASS="CHAPTER"
+><H1
+><A
+NAME="AEN1001"
+></A
+>Chapter 5. Libraries and LWAR</H1
+><P
+>LWTOOLS also includes a tool for managing libraries. These are analogous to
+the static libraries created with the "ar" tool on POSIX systems. Each library
+file contains one or more object files. The linker will treat the object
+files within a library as though they had been specified individually on
+the command line except when resolving external references. External references
+are looked up first within the object files within the library and then, if
+not found, the usual lookup based on the order the files are specified on
+the command line occurs.</P
+><P
+>The tool for creating these libary files is called LWAR.</P
+><DIV
+CLASS="SECTION"
+><H1
+CLASS="SECTION"
+><A
+NAME="AEN1005"
+>5.1. Command Line Options</A
+></H1
+><P
+>The binary for LWAR is called "lwar". Note that the binary is in lower
+case. The options lwar understands are listed below. For archive manipulation
+options, the first non-option argument is the name of the archive. All other
+non-option arguments are the names of files to operate on.</P
+><P
+></P
+><DIV
+CLASS="VARIABLELIST"
+><DL
+><DT
+><CODE
+CLASS="OPTION"
+>--add</CODE
+>, <CODE
+CLASS="OPTION"
+>-a</CODE
+></DT
+><DD
+><P
+>This option specifies that an archive is going to have files added to it.
+If the archive does not already exist, it is created. New files are added
+to the end of the archive.</P
+></DD
+><DT
+><CODE
+CLASS="OPTION"
+>--create</CODE
+>, <CODE
+CLASS="OPTION"
+>-c</CODE
+></DT
+><DD
+><P
+>This option specifies that an archive is going to be created and have files
+added to it. If the archive already exists, it is truncated.</P
+></DD
+><DT
+><CODE
+CLASS="OPTION"
+>--merge</CODE
+>, <CODE
+CLASS="OPTION"
+>-m</CODE
+></DT
+><DD
+><P
+>If specified, any files specified to be added to an archive will be checked
+to see if they are archives themselves. If so, their constituent members are
+added to the archive. This is useful for avoiding archives containing archives.</P
+></DD
+><DT
+><CODE
+CLASS="OPTION"
+>--list</CODE
+>, <CODE
+CLASS="OPTION"
+>-l</CODE
+></DT
+><DD
+><P
+>This will display a list of the files contained in the archive.</P
+></DD
+><DT
+><CODE
+CLASS="OPTION"
+>--debug</CODE
+>, <CODE
+CLASS="OPTION"
+>-d</CODE
+></DT
+><DD
+><P
+>This option increases the debugging level. It is only useful for LWTOOLS
+developers.</P
+></DD
+><DT
+><CODE
+CLASS="OPTION"
+>--help</CODE
+>, <CODE
+CLASS="OPTION"
+>-?</CODE
+></DT
+><DD
+><P
+>This provides a listing of command line options and a brief description
+of each.</P
+></DD
+><DT
+><CODE
+CLASS="OPTION"
+>--usage</CODE
+></DT
+><DD
+><P
+>This will display a usage summary
+of each command line option.</P
+></DD
+><DT
+><CODE
+CLASS="OPTION"
+>--version</CODE
+>, <CODE
+CLASS="OPTION"
+>-V</CODE
+></DT
+><DD
+><P
+>This will display the version of LWLINK.
+of each.</P
+></DD
+></DL
+></DIV
+></DIV
+></DIV
+><DIV
+CLASS="NAVFOOTER"
+><HR
+ALIGN="LEFT"
+WIDTH="100%"><TABLE
+SUMMARY="Footer navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
+><TD
+WIDTH="33%"
+ALIGN="left"
+VALIGN="top"
+><A
+HREF="x986.html"
+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="34%"
+ALIGN="center"
+VALIGN="top"
+><A
+HREF="index.html"
+ACCESSKEY="H"
+>Home</A
+></TD
+><TD
+WIDTH="33%"
+ALIGN="right"
+VALIGN="top"
+><A
+HREF="c1063.html"
+ACCESSKEY="N"
+>Next</A
+></TD
+></TR
+><TR
+><TD
+WIDTH="33%"
+ALIGN="left"
+VALIGN="top"
+>Format Specific Linking Notes</TD
+><TD
+WIDTH="34%"
+ALIGN="center"
+VALIGN="top"
+>&nbsp;</TD
+><TD
+WIDTH="33%"
+ALIGN="right"
+VALIGN="top"
+>Object Files</TD
+></TR
+></TABLE
+></DIV
+></BODY
+></HTML
+>
\ No newline at end of file
--- a/docs/manual/c1002.html	Tue Jul 14 23:12:24 2015 -0600
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,376 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
-<HTML
-><HEAD
-><TITLE
->Object Files</TITLE
-><META
-NAME="GENERATOR"
-CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
-REL="HOME"
-TITLE="LW Tool Chain"
-HREF="index.html"><LINK
-REL="PREVIOUS"
-TITLE="Libraries and LWAR"
-HREF="c940.html"></HEAD
-><BODY
-CLASS="CHAPTER"
-BGCOLOR="#FFFFFF"
-TEXT="#000000"
-LINK="#0000FF"
-VLINK="#840084"
-ALINK="#0000FF"
-><DIV
-CLASS="NAVHEADER"
-><TABLE
-SUMMARY="Header navigation table"
-WIDTH="100%"
-BORDER="0"
-CELLPADDING="0"
-CELLSPACING="0"
-><TR
-><TH
-COLSPAN="3"
-ALIGN="center"
->LW Tool Chain</TH
-></TR
-><TR
-><TD
-WIDTH="10%"
-ALIGN="left"
-VALIGN="bottom"
-><A
-HREF="c940.html"
-ACCESSKEY="P"
->Prev</A
-></TD
-><TD
-WIDTH="80%"
-ALIGN="center"
-VALIGN="bottom"
-></TD
-><TD
-WIDTH="10%"
-ALIGN="right"
-VALIGN="bottom"
->&nbsp;</TD
-></TR
-></TABLE
-><HR
-ALIGN="LEFT"
-WIDTH="100%"></DIV
-><DIV
-CLASS="CHAPTER"
-><H1
-><A
-NAME="OBJCHAP"
-></A
->Chapter 6. Object Files</H1
-><P
->LWTOOLS uses a proprietary object file format. It is proprietary in the sense
-that it is specific to LWTOOLS, not that it is a hidden format. It would be
-hard to keep it hidden in an open source tool chain anyway. This chapter
-documents the object file format.</P
-><P
->An object file consists of a series of sections each of which contains a
-list of exported symbols, a list of incomplete references, and a list of
-"local" symbols which may be used in calculating incomplete references. Each
-section will obviously also contain the object code.</P
-><P
->Exported symbols must be completely resolved to an address within the
-section it is exported from. That is, an exported symbol must be a constant
-rather than defined in terms of other symbols.</P
-><P
->Each object file starts with a magic number and version number. The magic
-number is the string "LWOBJ16" for this 16 bit object file format. The only
-defined version number is currently 0. Thus, the first 8 bytes of the object
-file are <FONT
-COLOR="RED"
->4C574F424A313600</FONT
-></P
-><P
->Each section has the following items in order:</P
-><P
-></P
-><UL
-><LI
-><P
->section name</P
-></LI
-><LI
-><P
->flags</P
-></LI
-><LI
-><P
->list of local symbols (and addresses within the section)</P
-></LI
-><LI
-><P
->list of exported symbols (and addresses within the section)</P
-></LI
-><LI
-><P
->list of incomplete references along with the expressions to calculate them</P
-></LI
-><LI
-><P
->the actual object code (for non-BSS sections)</P
-></LI
-></UL
-><P
->The section starts with the name of the section with a NUL termination
-followed by a series of flag bytes terminated by NUL. There are only two
-flag bytes defined. A NUL (0) indicates no more flags and a value of 1
-indicates the section is a BSS section. For a BSS section, no actual
-code is included in the object file.</P
-><P
->Either a NULL section name or end of file indicate the presence of no more
-sections.</P
-><P
->Each entry in the exported and local symbols table consists of the symbol
-(NUL terminated) followed by two bytes which contain the value in big endian
-order. The end of a symbol table is indicated by a NULL symbol name.</P
-><P
->Each entry in the incomplete references table consists of an expression
-followed by a 16 bit offset where the reference goes. Expressions are
-defined as a series of terms up to an "end of expression" term. Each term
-consists of a single byte which identifies the type of term (see below)
-followed by any data required by the term. Then end of the list is flagged
-by a NULL expression (only an end of expression term).</P
-><DIV
-CLASS="TABLE"
-><A
-NAME="AEN1027"
-></A
-><P
-><B
->Table 6-1. Object File Term Types</B
-></P
-><TABLE
-BORDER="1"
-FRAME="border"
-CLASS="CALSTABLE"
-><COL><COL><THEAD
-><TR
-><TH
->TERMTYPE</TH
-><TH
->Meaning</TH
-></TR
-></THEAD
-><TBODY
-><TR
-><TD
->00</TD
-><TD
->end of expression</TD
-></TR
-><TR
-><TD
->01</TD
-><TD
->integer (16 bit in big endian order follows)</TD
-></TR
-><TR
-><TD
->02</TD
-><TD
->	external symbol reference (NUL terminated symbol name follows)</TD
-></TR
-><TR
-><TD
->03</TD
-><TD
->local symbol reference (NUL terminated symbol name follows)</TD
-></TR
-><TR
-><TD
->04</TD
-><TD
->operator (1 byte operator number)</TD
-></TR
-><TR
-><TD
->05</TD
-><TD
->section base address reference</TD
-></TR
-><TR
-><TD
->FF</TD
-><TD
->This term will set flags for the expression. Each one of these terms will set a single flag. All of them should be specified first in an expression. If they are not, the behaviour is undefined. The byte following is the flag. Flag 01 indicates an 8 bit relocation. Flag 02 indicates a zero-width relocation (see the EXTDEP pseudo op in LWASM).</TD
-></TR
-></TBODY
-></TABLE
-></DIV
-><P
->External references are resolved using other object files while local
-references are resolved using the local symbol table(s) from this file. This
-allows local symbols that are not exported to have the same names as
-exported symbols or external references.</P
-><DIV
-CLASS="TABLE"
-><A
-NAME="AEN1057"
-></A
-><P
-><B
->Table 6-2. Object File Operator Numbers</B
-></P
-><TABLE
-BORDER="1"
-FRAME="border"
-CLASS="CALSTABLE"
-><COL><COL><THEAD
-><TR
-><TH
->Number</TH
-><TH
->Operator</TH
-></TR
-></THEAD
-><TBODY
-><TR
-><TD
->01</TD
-><TD
->addition (+)</TD
-></TR
-><TR
-><TD
->02</TD
-><TD
->subtraction (-)</TD
-></TR
-><TR
-><TD
->03</TD
-><TD
->multiplication (*)</TD
-></TR
-><TR
-><TD
->04</TD
-><TD
->division (/)</TD
-></TR
-><TR
-><TD
->05</TD
-><TD
->modulus (%)</TD
-></TR
-><TR
-><TD
->06</TD
-><TD
->integer division (\) (same as division)</TD
-></TR
-><TR
-><TD
->07</TD
-><TD
->bitwise and</TD
-></TR
-><TR
-><TD
->08</TD
-><TD
->bitwise or</TD
-></TR
-><TR
-><TD
->09</TD
-><TD
->bitwise xor</TD
-></TR
-><TR
-><TD
->0A</TD
-><TD
->boolean and</TD
-></TR
-><TR
-><TD
->0B</TD
-><TD
->boolean or</TD
-></TR
-><TR
-><TD
->0C</TD
-><TD
->unary negation, 2's complement (-)</TD
-></TR
-><TR
-><TD
->0D</TD
-><TD
->unary 1's complement (^)</TD
-></TR
-></TBODY
-></TABLE
-></DIV
-><P
->An expression is represented in a postfix manner with both operands for
-binary operators preceding the operator and the single operand for unary
-operators preceding the operator.</P
-></DIV
-><DIV
-CLASS="NAVFOOTER"
-><HR
-ALIGN="LEFT"
-WIDTH="100%"><TABLE
-SUMMARY="Footer navigation table"
-WIDTH="100%"
-BORDER="0"
-CELLPADDING="0"
-CELLSPACING="0"
-><TR
-><TD
-WIDTH="33%"
-ALIGN="left"
-VALIGN="top"
-><A
-HREF="c940.html"
-ACCESSKEY="P"
->Prev</A
-></TD
-><TD
-WIDTH="34%"
-ALIGN="center"
-VALIGN="top"
-><A
-HREF="index.html"
-ACCESSKEY="H"
->Home</A
-></TD
-><TD
-WIDTH="33%"
-ALIGN="right"
-VALIGN="top"
->&nbsp;</TD
-></TR
-><TR
-><TD
-WIDTH="33%"
-ALIGN="left"
-VALIGN="top"
->Libraries and LWAR</TD
-><TD
-WIDTH="34%"
-ALIGN="center"
-VALIGN="top"
->&nbsp;</TD
-><TD
-WIDTH="33%"
-ALIGN="right"
-VALIGN="top"
->&nbsp;</TD
-></TR
-></TABLE
-></DIV
-></BODY
-></HTML
->
\ No newline at end of file
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/docs/manual/c1063.html	Wed Jul 15 19:54:57 2015 -0600
@@ -0,0 +1,376 @@
+<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
+<HTML
+><HEAD
+><TITLE
+>Object Files</TITLE
+><META
+NAME="GENERATOR"
+CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
+REL="HOME"
+TITLE="LW Tool Chain"
+HREF="index.html"><LINK
+REL="PREVIOUS"
+TITLE="Libraries and LWAR"
+HREF="c1001.html"></HEAD
+><BODY
+CLASS="CHAPTER"
+BGCOLOR="#FFFFFF"
+TEXT="#000000"
+LINK="#0000FF"
+VLINK="#840084"
+ALINK="#0000FF"
+><DIV
+CLASS="NAVHEADER"
+><TABLE
+SUMMARY="Header navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
+><TH
+COLSPAN="3"
+ALIGN="center"
+>LW Tool Chain</TH
+></TR
+><TR
+><TD
+WIDTH="10%"
+ALIGN="left"
+VALIGN="bottom"
+><A
+HREF="c1001.html"
+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="80%"
+ALIGN="center"
+VALIGN="bottom"
+></TD
+><TD
+WIDTH="10%"
+ALIGN="right"
+VALIGN="bottom"
+>&nbsp;</TD
+></TR
+></TABLE
+><HR
+ALIGN="LEFT"
+WIDTH="100%"></DIV
+><DIV
+CLASS="CHAPTER"
+><H1
+><A
+NAME="OBJCHAP"
+></A
+>Chapter 6. Object Files</H1
+><P
+>LWTOOLS uses a proprietary object file format. It is proprietary in the sense
+that it is specific to LWTOOLS, not that it is a hidden format. It would be
+hard to keep it hidden in an open source tool chain anyway. This chapter
+documents the object file format.</P
+><P
+>An object file consists of a series of sections each of which contains a
+list of exported symbols, a list of incomplete references, and a list of
+"local" symbols which may be used in calculating incomplete references. Each
+section will obviously also contain the object code.</P
+><P
+>Exported symbols must be completely resolved to an address within the
+section it is exported from. That is, an exported symbol must be a constant
+rather than defined in terms of other symbols.</P
+><P
+>Each object file starts with a magic number and version number. The magic
+number is the string "LWOBJ16" for this 16 bit object file format. The only
+defined version number is currently 0. Thus, the first 8 bytes of the object
+file are <FONT
+COLOR="RED"
+>4C574F424A313600</FONT
+></P
+><P
+>Each section has the following items in order:</P
+><P
+></P
+><UL
+><LI
+><P
+>section name</P
+></LI
+><LI
+><P
+>flags</P
+></LI
+><LI
+><P
+>list of local symbols (and addresses within the section)</P
+></LI
+><LI
+><P
+>list of exported symbols (and addresses within the section)</P
+></LI
+><LI
+><P
+>list of incomplete references along with the expressions to calculate them</P
+></LI
+><LI
+><P
+>the actual object code (for non-BSS sections)</P
+></LI
+></UL
+><P
+>The section starts with the name of the section with a NUL termination
+followed by a series of flag bytes terminated by NUL. There are only two
+flag bytes defined. A NUL (0) indicates no more flags and a value of 1
+indicates the section is a BSS section. For a BSS section, no actual
+code is included in the object file.</P
+><P
+>Either a NULL section name or end of file indicate the presence of no more
+sections.</P
+><P
+>Each entry in the exported and local symbols table consists of the symbol
+(NUL terminated) followed by two bytes which contain the value in big endian
+order. The end of a symbol table is indicated by a NULL symbol name.</P
+><P
+>Each entry in the incomplete references table consists of an expression
+followed by a 16 bit offset where the reference goes. Expressions are
+defined as a series of terms up to an "end of expression" term. Each term
+consists of a single byte which identifies the type of term (see below)
+followed by any data required by the term. Then end of the list is flagged
+by a NULL expression (only an end of expression term).</P
+><DIV
+CLASS="TABLE"
+><A
+NAME="AEN1088"
+></A
+><P
+><B
+>Table 6-1. Object File Term Types</B
+></P
+><TABLE
+BORDER="1"
+FRAME="border"
+CLASS="CALSTABLE"
+><COL><COL><THEAD
+><TR
+><TH
+>TERMTYPE</TH
+><TH
+>Meaning</TH
+></TR
+></THEAD
+><TBODY
+><TR
+><TD
+>00</TD
+><TD
+>end of expression</TD
+></TR
+><TR
+><TD
+>01</TD
+><TD
+>integer (16 bit in big endian order follows)</TD
+></TR
+><TR
+><TD
+>02</TD
+><TD
+>	external symbol reference (NUL terminated symbol name follows)</TD
+></TR
+><TR
+><TD
+>03</TD
+><TD
+>local symbol reference (NUL terminated symbol name follows)</TD
+></TR
+><TR
+><TD
+>04</TD
+><TD
+>operator (1 byte operator number)</TD
+></TR
+><TR
+><TD
+>05</TD
+><TD
+>section base address reference</TD
+></TR
+><TR
+><TD
+>FF</TD
+><TD
+>This term will set flags for the expression. Each one of these terms will set a single flag. All of them should be specified first in an expression. If they are not, the behaviour is undefined. The byte following is the flag. Flag 01 indicates an 8 bit relocation. Flag 02 indicates a zero-width relocation (see the EXTDEP pseudo op in LWASM).</TD
+></TR
+></TBODY
+></TABLE
+></DIV
+><P
+>External references are resolved using other object files while local
+references are resolved using the local symbol table(s) from this file. This
+allows local symbols that are not exported to have the same names as
+exported symbols or external references.</P
+><DIV
+CLASS="TABLE"
+><A
+NAME="AEN1118"
+></A
+><P
+><B
+>Table 6-2. Object File Operator Numbers</B
+></P
+><TABLE
+BORDER="1"
+FRAME="border"
+CLASS="CALSTABLE"
+><COL><COL><THEAD
+><TR
+><TH
+>Number</TH
+><TH
+>Operator</TH
+></TR
+></THEAD
+><TBODY
+><TR
+><TD
+>01</TD
+><TD
+>addition (+)</TD
+></TR
+><TR
+><TD
+>02</TD
+><TD
+>subtraction (-)</TD
+></TR
+><TR
+><TD
+>03</TD
+><TD
+>multiplication (*)</TD
+></TR
+><TR
+><TD
+>04</TD
+><TD
+>division (/)</TD
+></TR
+><TR
+><TD
+>05</TD
+><TD
+>modulus (%)</TD
+></TR
+><TR
+><TD
+>06</TD
+><TD
+>integer division (\) (same as division)</TD
+></TR
+><TR
+><TD
+>07</TD
+><TD
+>bitwise and</TD
+></TR
+><TR
+><TD
+>08</TD
+><TD
+>bitwise or</TD
+></TR
+><TR
+><TD
+>09</TD
+><TD
+>bitwise xor</TD
+></TR
+><TR
+><TD
+>0A</TD
+><TD
+>boolean and</TD
+></TR
+><TR
+><TD
+>0B</TD
+><TD
+>boolean or</TD
+></TR
+><TR
+><TD
+>0C</TD
+><TD
+>unary negation, 2's complement (-)</TD
+></TR
+><TR
+><TD
+>0D</TD
+><TD
+>unary 1's complement (^)</TD
+></TR
+></TBODY
+></TABLE
+></DIV
+><P
+>An expression is represented in a postfix manner with both operands for
+binary operators preceding the operator and the single operand for unary
+operators preceding the operator.</P
+></DIV
+><DIV
+CLASS="NAVFOOTER"
+><HR
+ALIGN="LEFT"
+WIDTH="100%"><TABLE
+SUMMARY="Footer navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
+><TD
+WIDTH="33%"
+ALIGN="left"
+VALIGN="top"
+><A
+HREF="c1001.html"
+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="34%"
+ALIGN="center"
+VALIGN="top"
+><A
+HREF="index.html"
+ACCESSKEY="H"
+>Home</A
+></TD
+><TD
+WIDTH="33%"
+ALIGN="right"
+VALIGN="top"
+>&nbsp;</TD
+></TR
+><TR
+><TD
+WIDTH="33%"
+ALIGN="left"
+VALIGN="top"
+>Libraries and LWAR</TD
+><TD
+WIDTH="34%"
+ALIGN="center"
+VALIGN="top"
+>&nbsp;</TD
+><TD
+WIDTH="33%"
+ALIGN="right"
+VALIGN="top"
+>&nbsp;</TD
+></TR
+></TABLE
+></DIV
+></BODY
+></HTML
+>
\ No newline at end of file
--- a/docs/manual/c62.html	Tue Jul 14 23:12:24 2015 -0600
+++ b/docs/manual/c62.html	Wed Jul 15 19:54:57 2015 -0600
@@ -14,7 +14,7 @@
 HREF="x54.html"><LINK
 REL="NEXT"
 TITLE="Dialects"
-HREF="x208.html"></HEAD
+HREF="x218.html"></HEAD
 ><BODY
 CLASS="CHAPTER"
 BGCOLOR="#FFFFFF"
@@ -56,7 +56,7 @@
 ALIGN="right"
 VALIGN="bottom"
 ><A
-HREF="x208.html"
+HREF="x218.html"
 ACCESSKEY="N"
 >Next</A
 ></TD
@@ -105,6 +105,8 @@
 >This will cause the assembler to accept the additional instructions available
 on the 6309 processor. This is the default mode; this option is provided for
 completeness and to override preset command arguments.</P
+><P
+>This option is the same as if the first line of the source code is "PRAGMA 6309".</P
 ></DD
 ><DT
 ><CODE
@@ -131,7 +133,8 @@
 ><DD
 ><P
 >This will cause the assembler to reject instructions that are only available
-on the 6309 processor.</P
+on the 6309 processor. This actually has the effect of starting the assembler
+as though the first line of the source is "PRAGMA 6809".</P
 ></DD
 ><DT
 ><CODE
@@ -331,6 +334,25 @@
 ><DT
 ><CODE
 CLASS="OPTION"
+>-t WIDTH</CODE
+>, <CODE
+CLASS="OPTION"
+>--tabs=WIDTH</CODE
+></DT
+><DD
+><P
+>Specifies the handling of tabs in listing files. <CODE
+CLASS="OPTION"
+>--tabs=0</CODE
+>
+disables tab expansion. <CODE
+CLASS="OPTION"
+>--tabs=8</CODE
+> is the default setting.</P
+></DD
+><DT
+><CODE
+CLASS="OPTION"
 >--help</CODE
 >, <CODE
 CLASS="OPTION"
@@ -412,7 +434,7 @@
 ALIGN="right"
 VALIGN="top"
 ><A
-HREF="x208.html"
+HREF="x218.html"
 ACCESSKEY="N"
 >Next</A
 ></TD
--- a/docs/manual/c745.html	Tue Jul 14 23:12:24 2015 -0600
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,336 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
-<HTML
-><HEAD
-><TITLE
->LWLINK</TITLE
-><META
-NAME="GENERATOR"
-CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
-REL="HOME"
-TITLE="LW Tool Chain"
-HREF="index.html"><LINK
-REL="PREVIOUS"
-TITLE="Assembler Modes and Pragmas"
-HREF="x639.html"><LINK
-REL="NEXT"
-TITLE="Linker Operation"
-HREF="x845.html"></HEAD
-><BODY
-CLASS="CHAPTER"
-BGCOLOR="#FFFFFF"
-TEXT="#000000"
-LINK="#0000FF"
-VLINK="#840084"
-ALINK="#0000FF"
-><DIV
-CLASS="NAVHEADER"
-><TABLE
-SUMMARY="Header navigation table"
-WIDTH="100%"
-BORDER="0"
-CELLPADDING="0"
-CELLSPACING="0"
-><TR
-><TH
-COLSPAN="3"
-ALIGN="center"
->LW Tool Chain</TH
-></TR
-><TR
-><TD
-WIDTH="10%"
-ALIGN="left"
-VALIGN="bottom"
-><A
-HREF="x639.html"
-ACCESSKEY="P"
->Prev</A
-></TD
-><TD
-WIDTH="80%"
-ALIGN="center"
-VALIGN="bottom"
-></TD
-><TD
-WIDTH="10%"
-ALIGN="right"
-VALIGN="bottom"
-><A
-HREF="x845.html"
-ACCESSKEY="N"
->Next</A
-></TD
-></TR
-></TABLE
-><HR
-ALIGN="LEFT"
-WIDTH="100%"></DIV
-><DIV
-CLASS="CHAPTER"
-><H1
-><A
-NAME="AEN745"
-></A
->Chapter 4. LWLINK</H1
-><P
->The LWTOOLS linker is called LWLINK. This chapter documents the various features
-of the linker.</P
-><DIV
-CLASS="SECTION"
-><H1
-CLASS="SECTION"
-><A
-NAME="AEN748"
->4.1. Command Line Options</A
-></H1
-><P
->The binary for LWLINK is called "lwlink". Note that the binary is in lower
-case. lwlink takes the following command line arguments.</P
-><P
-></P
-><DIV
-CLASS="VARIABLELIST"
-><DL
-><DT
-><CODE
-CLASS="OPTION"
->--decb</CODE
->, <CODE
-CLASS="OPTION"
->-b</CODE
-></DT
-><DD
-><P
->Selects the DECB output format target. This is equivalent to <CODE
-CLASS="OPTION"
->--format=decb</CODE
-></P
-></DD
-><DT
-><CODE
-CLASS="OPTION"
->--output=FILE</CODE
->, <CODE
-CLASS="OPTION"
->-o FILE</CODE
-></DT
-><DD
-><P
->This option specifies the name of the output file. If not specified, the
-default is <CODE
-CLASS="OPTION"
->a.out</CODE
->.</P
-></DD
-><DT
-><CODE
-CLASS="OPTION"
->--format=TYPE</CODE
->, <CODE
-CLASS="OPTION"
->-f TYPE</CODE
-></DT
-><DD
-><P
->This option specifies the output format. Valid values are <CODE
-CLASS="OPTION"
->decb</CODE
->
-and <CODE
-CLASS="OPTION"
->raw</CODE
-></P
-></DD
-><DT
-><CODE
-CLASS="OPTION"
->--raw</CODE
->, <CODE
-CLASS="OPTION"
->-r</CODE
-></DT
-><DD
-><P
->This option specifies the raw output format.
-It is equivalent to <CODE
-CLASS="OPTION"
->--format=raw</CODE
->
-and <CODE
-CLASS="OPTION"
->-f raw</CODE
-></P
-></DD
-><DT
-><CODE
-CLASS="OPTION"
->--script=FILE</CODE
->, <CODE
-CLASS="OPTION"
->-s</CODE
-></DT
-><DD
-><P
->This option allows specifying a linking script to override the linker's
-built in defaults.</P
-></DD
-><DT
-><CODE
-CLASS="OPTION"
->--section-base=SECT=BASE</CODE
-></DT
-><DD
-><P
->Cause section SECT to load at base address BASE. This will be prepended
-to the built-in link script. It is ignored if a link script is provided.</P
-></DD
-><DT
-><CODE
-CLASS="OPTION"
->--map=FILE</CODE
->, <CODE
-CLASS="OPTION"
->-m FILE</CODE
-></DT
-><DD
-><P
->This will output a description of the link result to FILE.</P
-></DD
-><DT
-><CODE
-CLASS="OPTION"
->--library=LIBSPEC</CODE
->, <CODE
-CLASS="OPTION"
->-l LIBSPEC</CODE
-></DT
-><DD
-><P
->Load a library using the library search path. LIBSPEC will have "lib" prepended
-and ".a" appended.</P
-></DD
-><DT
-><CODE
-CLASS="OPTION"
->--library-path=DIR</CODE
->, <CODE
-CLASS="OPTION"
->-L DIR</CODE
-></DT
-><DD
-><P
->Add DIR to the library search path.</P
-></DD
-><DT
-><CODE
-CLASS="OPTION"
->--debug</CODE
->, <CODE
-CLASS="OPTION"
->-d</CODE
-></DT
-><DD
-><P
->This option increases the debugging level. It is only useful for LWTOOLS
-developers.</P
-></DD
-><DT
-><CODE
-CLASS="OPTION"
->--help</CODE
->, <CODE
-CLASS="OPTION"
->-?</CODE
-></DT
-><DD
-><P
->This provides a listing of command line options and a brief description
-of each.</P
-></DD
-><DT
-><CODE
-CLASS="OPTION"
->--usage</CODE
-></DT
-><DD
-><P
->This will display a usage summary
-of each command line option.</P
-></DD
-><DT
-><CODE
-CLASS="OPTION"
->--version</CODE
->, <CODE
-CLASS="OPTION"
->-V</CODE
-></DT
-><DD
-><P
->This will display the version of LWLINK.</P
-></DD
-></DL
-></DIV
-></DIV
-></DIV
-><DIV
-CLASS="NAVFOOTER"
-><HR
-ALIGN="LEFT"
-WIDTH="100%"><TABLE
-SUMMARY="Footer navigation table"
-WIDTH="100%"
-BORDER="0"
-CELLPADDING="0"
-CELLSPACING="0"
-><TR
-><TD
-WIDTH="33%"
-ALIGN="left"
-VALIGN="top"
-><A
-HREF="x639.html"
-ACCESSKEY="P"
->Prev</A
-></TD
-><TD
-WIDTH="34%"
-ALIGN="center"
-VALIGN="top"
-><A
-HREF="index.html"
-ACCESSKEY="H"
->Home</A
-></TD
-><TD
-WIDTH="33%"
-ALIGN="right"
-VALIGN="top"
-><A
-HREF="x845.html"
-ACCESSKEY="N"
->Next</A
-></TD
-></TR
-><TR
-><TD
-WIDTH="33%"
-ALIGN="left"
-VALIGN="top"
->Assembler Modes and Pragmas</TD
-><TD
-WIDTH="34%"
-ALIGN="center"
-VALIGN="top"
->&nbsp;</TD
-><TD
-WIDTH="33%"
-ALIGN="right"
-VALIGN="top"
->Linker Operation</TD
-></TR
-></TABLE
-></DIV
-></BODY
-></HTML
->
\ No newline at end of file
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/docs/manual/c806.html	Wed Jul 15 19:54:57 2015 -0600
@@ -0,0 +1,336 @@
+<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
+<HTML
+><HEAD
+><TITLE
+>LWLINK</TITLE
+><META
+NAME="GENERATOR"
+CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
+REL="HOME"
+TITLE="LW Tool Chain"
+HREF="index.html"><LINK
+REL="PREVIOUS"
+TITLE="Cycle Counts"
+HREF="x800.html"><LINK
+REL="NEXT"
+TITLE="Linker Operation"
+HREF="x906.html"></HEAD
+><BODY
+CLASS="CHAPTER"
+BGCOLOR="#FFFFFF"
+TEXT="#000000"
+LINK="#0000FF"
+VLINK="#840084"
+ALINK="#0000FF"
+><DIV
+CLASS="NAVHEADER"
+><TABLE
+SUMMARY="Header navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
+><TH
+COLSPAN="3"
+ALIGN="center"
+>LW Tool Chain</TH
+></TR
+><TR
+><TD
+WIDTH="10%"
+ALIGN="left"
+VALIGN="bottom"
+><A
+HREF="x800.html"
+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="80%"
+ALIGN="center"
+VALIGN="bottom"
+></TD
+><TD
+WIDTH="10%"
+ALIGN="right"
+VALIGN="bottom"
+><A
+HREF="x906.html"
+ACCESSKEY="N"
+>Next</A
+></TD
+></TR
+></TABLE
+><HR
+ALIGN="LEFT"
+WIDTH="100%"></DIV
+><DIV
+CLASS="CHAPTER"
+><H1
+><A
+NAME="AEN806"
+></A
+>Chapter 4. LWLINK</H1
+><P
+>The LWTOOLS linker is called LWLINK. This chapter documents the various features
+of the linker.</P
+><DIV
+CLASS="SECTION"
+><H1
+CLASS="SECTION"
+><A
+NAME="AEN809"
+>4.1. Command Line Options</A
+></H1
+><P
+>The binary for LWLINK is called "lwlink". Note that the binary is in lower
+case. lwlink takes the following command line arguments.</P
+><P
+></P
+><DIV
+CLASS="VARIABLELIST"
+><DL
+><DT
+><CODE
+CLASS="OPTION"
+>--decb</CODE
+>, <CODE
+CLASS="OPTION"
+>-b</CODE
+></DT
+><DD
+><P
+>Selects the DECB output format target. This is equivalent to <CODE
+CLASS="OPTION"
+>--format=decb</CODE
+></P
+></DD
+><DT
+><CODE
+CLASS="OPTION"
+>--output=FILE</CODE
+>, <CODE
+CLASS="OPTION"
+>-o FILE</CODE
+></DT
+><DD
+><P
+>This option specifies the name of the output file. If not specified, the
+default is <CODE
+CLASS="OPTION"
+>a.out</CODE
+>.</P
+></DD
+><DT
+><CODE
+CLASS="OPTION"
+>--format=TYPE</CODE
+>, <CODE
+CLASS="OPTION"
+>-f TYPE</CODE
+></DT
+><DD
+><P
+>This option specifies the output format. Valid values are <CODE
+CLASS="OPTION"
+>decb</CODE
+>
+and <CODE
+CLASS="OPTION"
+>raw</CODE
+></P
+></DD
+><DT
+><CODE
+CLASS="OPTION"
+>--raw</CODE
+>, <CODE
+CLASS="OPTION"
+>-r</CODE
+></DT
+><DD
+><P
+>This option specifies the raw output format.
+It is equivalent to <CODE
+CLASS="OPTION"
+>--format=raw</CODE
+>
+and <CODE
+CLASS="OPTION"
+>-f raw</CODE
+></P
+></DD
+><DT
+><CODE
+CLASS="OPTION"
+>--script=FILE</CODE
+>, <CODE
+CLASS="OPTION"
+>-s</CODE
+></DT
+><DD
+><P
+>This option allows specifying a linking script to override the linker's
+built in defaults.</P
+></DD
+><DT
+><CODE
+CLASS="OPTION"
+>--section-base=SECT=BASE</CODE
+></DT
+><DD
+><P
+>Cause section SECT to load at base address BASE. This will be prepended
+to the built-in link script. It is ignored if a link script is provided.</P
+></DD
+><DT
+><CODE
+CLASS="OPTION"
+>--map=FILE</CODE
+>, <CODE
+CLASS="OPTION"
+>-m FILE</CODE
+></DT
+><DD
+><P
+>This will output a description of the link result to FILE.</P
+></DD
+><DT
+><CODE
+CLASS="OPTION"
+>--library=LIBSPEC</CODE
+>, <CODE
+CLASS="OPTION"
+>-l LIBSPEC</CODE
+></DT
+><DD
+><P
+>Load a library using the library search path. LIBSPEC will have "lib" prepended
+and ".a" appended.</P
+></DD
+><DT
+><CODE
+CLASS="OPTION"
+>--library-path=DIR</CODE
+>, <CODE
+CLASS="OPTION"
+>-L DIR</CODE
+></DT
+><DD
+><P
+>Add DIR to the library search path.</P
+></DD
+><DT
+><CODE
+CLASS="OPTION"
+>--debug</CODE
+>, <CODE
+CLASS="OPTION"
+>-d</CODE
+></DT
+><DD
+><P
+>This option increases the debugging level. It is only useful for LWTOOLS
+developers.</P
+></DD
+><DT
+><CODE
+CLASS="OPTION"
+>--help</CODE
+>, <CODE
+CLASS="OPTION"
+>-?</CODE
+></DT
+><DD
+><P
+>This provides a listing of command line options and a brief description
+of each.</P
+></DD
+><DT
+><CODE
+CLASS="OPTION"
+>--usage</CODE
+></DT
+><DD
+><P
+>This will display a usage summary
+of each command line option.</P
+></DD
+><DT
+><CODE
+CLASS="OPTION"
+>--version</CODE
+>, <CODE
+CLASS="OPTION"
+>-V</CODE
+></DT
+><DD
+><P
+>This will display the version of LWLINK.</P
+></DD
+></DL
+></DIV
+></DIV
+></DIV
+><DIV
+CLASS="NAVFOOTER"
+><HR
+ALIGN="LEFT"
+WIDTH="100%"><TABLE
+SUMMARY="Footer navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
+><TD
+WIDTH="33%"
+ALIGN="left"
+VALIGN="top"
+><A
+HREF="x800.html"
+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="34%"
+ALIGN="center"
+VALIGN="top"
+><A
+HREF="index.html"
+ACCESSKEY="H"
+>Home</A
+></TD
+><TD
+WIDTH="33%"
+ALIGN="right"
+VALIGN="top"
+><A
+HREF="x906.html"
+ACCESSKEY="N"
+>Next</A
+></TD
+></TR
+><TR
+><TD
+WIDTH="33%"
+ALIGN="left"
+VALIGN="top"
+>Cycle Counts</TD
+><TD
+WIDTH="34%"
+ALIGN="center"
+VALIGN="top"
+>&nbsp;</TD
+><TD
+WIDTH="33%"
+ALIGN="right"
+VALIGN="top"
+>Linker Operation</TD
+></TR
+></TABLE
+></DIV
+></BODY
+></HTML
+>
\ No newline at end of file
--- a/docs/manual/c940.html	Tue Jul 14 23:12:24 2015 -0600
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,270 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
-<HTML
-><HEAD
-><TITLE
->Libraries and LWAR</TITLE
-><META
-NAME="GENERATOR"
-CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
-REL="HOME"
-TITLE="LW Tool Chain"
-HREF="index.html"><LINK
-REL="PREVIOUS"
-TITLE="Format Specific Linking Notes"
-HREF="x925.html"><LINK
-REL="NEXT"
-TITLE="Object Files"
-HREF="c1002.html"></HEAD
-><BODY
-CLASS="CHAPTER"
-BGCOLOR="#FFFFFF"
-TEXT="#000000"
-LINK="#0000FF"
-VLINK="#840084"
-ALINK="#0000FF"
-><DIV
-CLASS="NAVHEADER"
-><TABLE
-SUMMARY="Header navigation table"
-WIDTH="100%"
-BORDER="0"
-CELLPADDING="0"
-CELLSPACING="0"
-><TR
-><TH
-COLSPAN="3"
-ALIGN="center"
->LW Tool Chain</TH
-></TR
-><TR
-><TD
-WIDTH="10%"
-ALIGN="left"
-VALIGN="bottom"
-><A
-HREF="x925.html"
-ACCESSKEY="P"
->Prev</A
-></TD
-><TD
-WIDTH="80%"
-ALIGN="center"
-VALIGN="bottom"
-></TD
-><TD
-WIDTH="10%"
-ALIGN="right"
-VALIGN="bottom"
-><A
-HREF="c1002.html"
-ACCESSKEY="N"
->Next</A
-></TD
-></TR
-></TABLE
-><HR
-ALIGN="LEFT"
-WIDTH="100%"></DIV
-><DIV
-CLASS="CHAPTER"
-><H1
-><A
-NAME="AEN940"
-></A
->Chapter 5. Libraries and LWAR</H1
-><P
->LWTOOLS also includes a tool for managing libraries. These are analogous to
-the static libraries created with the "ar" tool on POSIX systems. Each library
-file contains one or more object files. The linker will treat the object
-files within a library as though they had been specified individually on
-the command line except when resolving external references. External references
-are looked up first within the object files within the library and then, if
-not found, the usual lookup based on the order the files are specified on
-the command line occurs.</P
-><P
->The tool for creating these libary files is called LWAR.</P
-><DIV
-CLASS="SECTION"
-><H1
-CLASS="SECTION"
-><A
-NAME="AEN944"
->5.1. Command Line Options</A
-></H1
-><P
->The binary for LWAR is called "lwar". Note that the binary is in lower
-case. The options lwar understands are listed below. For archive manipulation
-options, the first non-option argument is the name of the archive. All other
-non-option arguments are the names of files to operate on.</P
-><P
-></P
-><DIV
-CLASS="VARIABLELIST"
-><DL
-><DT
-><CODE
-CLASS="OPTION"
->--add</CODE
->, <CODE
-CLASS="OPTION"
->-a</CODE
-></DT
-><DD
-><P
->This option specifies that an archive is going to have files added to it.
-If the archive does not already exist, it is created. New files are added
-to the end of the archive.</P
-></DD
-><DT
-><CODE
-CLASS="OPTION"
->--create</CODE
->, <CODE
-CLASS="OPTION"
->-c</CODE
-></DT
-><DD
-><P
->This option specifies that an archive is going to be created and have files
-added to it. If the archive already exists, it is truncated.</P
-></DD
-><DT
-><CODE
-CLASS="OPTION"
->--merge</CODE
->, <CODE
-CLASS="OPTION"
->-m</CODE
-></DT
-><DD
-><P
->If specified, any files specified to be added to an archive will be checked
-to see if they are archives themselves. If so, their constituent members are
-added to the archive. This is useful for avoiding archives containing archives.</P
-></DD
-><DT
-><CODE
-CLASS="OPTION"
->--list</CODE
->, <CODE
-CLASS="OPTION"
->-l</CODE
-></DT
-><DD
-><P
->This will display a list of the files contained in the archive.</P
-></DD
-><DT
-><CODE
-CLASS="OPTION"
->--debug</CODE
->, <CODE
-CLASS="OPTION"
->-d</CODE
-></DT
-><DD
-><P
->This option increases the debugging level. It is only useful for LWTOOLS
-developers.</P
-></DD
-><DT
-><CODE
-CLASS="OPTION"
->--help</CODE
->, <CODE
-CLASS="OPTION"
->-?</CODE
-></DT
-><DD
-><P
->This provides a listing of command line options and a brief description
-of each.</P
-></DD
-><DT
-><CODE
-CLASS="OPTION"
->--usage</CODE
-></DT
-><DD
-><P
->This will display a usage summary
-of each command line option.</P
-></DD
-><DT
-><CODE
-CLASS="OPTION"
->--version</CODE
->, <CODE
-CLASS="OPTION"
->-V</CODE
-></DT
-><DD
-><P
->This will display the version of LWLINK.
-of each.</P
-></DD
-></DL
-></DIV
-></DIV
-></DIV
-><DIV
-CLASS="NAVFOOTER"
-><HR
-ALIGN="LEFT"
-WIDTH="100%"><TABLE
-SUMMARY="Footer navigation table"
-WIDTH="100%"
-BORDER="0"
-CELLPADDING="0"
-CELLSPACING="0"
-><TR
-><TD
-WIDTH="33%"
-ALIGN="left"
-VALIGN="top"
-><A
-HREF="x925.html"
-ACCESSKEY="P"
->Prev</A
-></TD
-><TD
-WIDTH="34%"
-ALIGN="center"
-VALIGN="top"
-><A
-HREF="index.html"
-ACCESSKEY="H"
->Home</A
-></TD
-><TD
-WIDTH="33%"
-ALIGN="right"
-VALIGN="top"
-><A
-HREF="c1002.html"
-ACCESSKEY="N"
->Next</A
-></TD
-></TR
-><TR
-><TD
-WIDTH="33%"
-ALIGN="left"
-VALIGN="top"
->Format Specific Linking Notes</TD
-><TD
-WIDTH="34%"
-ALIGN="center"
-VALIGN="top"
->&nbsp;</TD
-><TD
-WIDTH="33%"
-ALIGN="right"
-VALIGN="top"
->Object Files</TD
-></TR
-></TABLE
-></DIV
-></BODY
-></HTML
->
\ No newline at end of file
--- a/docs/manual/index.html	Tue Jul 14 23:12:24 2015 -0600
+++ b/docs/manual/index.html	Wed Jul 15 19:54:57 2015 -0600
@@ -124,112 +124,122 @@
 ></DT
 ><DT
 >3.2. <A
-HREF="x208.html"
+HREF="x218.html"
 >Dialects</A
 ></DT
 ><DT
 >3.3. <A
-HREF="x217.html"
+HREF="x227.html"
 >Source Format</A
 ></DT
 ><DT
 >3.4. <A
-HREF="x227.html"
+HREF="x237.html"
 >Symbols</A
 ></DT
 ><DT
 >3.5. <A
-HREF="x232.html"
+HREF="x242.html"
 >Numbers and Expressions</A
 ></DT
 ><DT
 >3.6. <A
-HREF="x240.html"
+HREF="x250.html"
 >Assembler Directives</A
 ></DT
 ><DD
 ><DL
 ><DT
 >3.6.1. <A
-HREF="x240.html#AEN243"
+HREF="x250.html#AEN253"
 >Data Directives</A
 ></DT
 ><DT
 >3.6.2. <A
-HREF="x240.html#AEN354"
+HREF="x250.html#AEN364"
 >Address Definition</A
 ></DT
 ><DT
 >3.6.3. <A
-HREF="x240.html#AEN401"
+HREF="x250.html#AEN415"
 >Conditional Assembly</A
 ></DT
 ><DT
 >3.6.4. <A
-HREF="x240.html#AEN466"
+HREF="x250.html#AEN486"
 >OS9 Target Directives</A
 ></DT
 ><DT
 >3.6.5. <A
-HREF="x240.html#AEN491"
+HREF="x250.html#AEN511"
 >Miscelaneous Directives</A
 ></DT
 ></DL
 ></DD
 ><DT
 >3.7. <A
-HREF="x531.html"
+HREF="x551.html"
 >Macros</A
 ></DT
 ><DT
 >3.8. <A
-HREF="x554.html"
+HREF="x574.html"
 >Structures</A
 ></DT
 ><DT
 >3.9. <A
-HREF="x575.html"
+HREF="x595.html"
 >Object Files and Sections</A
 ></DT
 ><DT
 >3.10. <A
-HREF="x639.html"
+HREF="x659.html"
 >Assembler Modes and Pragmas</A
 ></DT
+><DT
+>3.11. <A
+HREF="x795.html"
+>Convenience Instructions</A
+></DT
+><DT
+>3.12. <A
+HREF="x800.html"
+>Cycle Counts</A
+></DT
 ></DL
 ></DD
 ><DT
 >4. <A
-HREF="c745.html"
+HREF="c806.html"
 >LWLINK</A
 ></DT
 ><DD
 ><DL
 ><DT
 >4.1. <A
-HREF="c745.html#AEN748"
+HREF="c806.html#AEN809"
 >Command Line Options</A
 ></DT
 ><DT
 >4.2. <A
-HREF="x845.html"
+HREF="x906.html"
 >Linker Operation</A
 ></DT
 ><DT
 >4.3. <A
-HREF="x859.html"
+HREF="x920.html"
 >Linking Scripts</A
 ></DT
 ><DT
 >4.4. <A
-HREF="x925.html"
+HREF="x986.html"
 >Format Specific Linking Notes</A
 ></DT
 ><DD
 ><DL
 ><DT
 >4.4.1. <A
-HREF="x925.html#AEN928"
+HREF="x986.html#AEN989"
 >OS9 Modules</A
 ></DT
 ></DL
@@ -238,21 +248,21 @@
 ></DD
 ><DT
 >5. <A
-HREF="c940.html"
+HREF="c1001.html"
 >Libraries and LWAR</A
 ></DT
 ><DD
 ><DL
 ><DT
 >5.1. <A
-HREF="c940.html#AEN944"
+HREF="c1001.html#AEN1005"
 >Command Line Options</A
 ></DT
 ></DL
 ></DD
 ><DT
 >6. <A
-HREF="c1002.html"
+HREF="c1063.html"
 >Object Files</A
 ></DT
 ></DL
@@ -267,12 +277,12 @@
 ></DT
 ><DT
 >6-1. <A
-HREF="c1002.html#AEN1027"
+HREF="c1063.html#AEN1088"
 >Object File Term Types</A
 ></DT
 ><DT
 >6-2. <A
-HREF="c1002.html#AEN1057"
+HREF="c1063.html#AEN1118"
 >Object File Operator Numbers</A
 ></DT
 ></DL
--- a/docs/manual/manual.html	Tue Jul 14 23:12:24 2015 -0600
+++ b/docs/manual/manual.html	Wed Jul 15 19:54:57 2015 -0600
@@ -121,112 +121,122 @@
 ></DT
 ><DT
 >3.2. <A
-HREF="#AEN208"
+HREF="#AEN218"
 >Dialects</A
 ></DT
 ><DT
 >3.3. <A
-HREF="#AEN217"
+HREF="#AEN227"
 >Source Format</A
 ></DT
 ><DT
 >3.4. <A
-HREF="#AEN227"
+HREF="#AEN237"
 >Symbols</A
 ></DT
 ><DT
 >3.5. <A
-HREF="#AEN232"
+HREF="#AEN242"
 >Numbers and Expressions</A
 ></DT
 ><DT
 >3.6. <A
-HREF="#AEN240"
+HREF="#AEN250"
 >Assembler Directives</A
 ></DT
 ><DD
 ><DL
 ><DT
 >3.6.1. <A
-HREF="#AEN243"
+HREF="#AEN253"
 >Data Directives</A
 ></DT
 ><DT
 >3.6.2. <A
-HREF="#AEN354"
+HREF="#AEN364"
 >Address Definition</A
 ></DT
 ><DT
 >3.6.3. <A
-HREF="#AEN401"
+HREF="#AEN415"
 >Conditional Assembly</A
 ></DT
 ><DT
 >3.6.4. <A
-HREF="#AEN466"
+HREF="#AEN486"
 >OS9 Target Directives</A
 ></DT
 ><DT
 >3.6.5. <A
-HREF="#AEN491"
+HREF="#AEN511"
 >Miscelaneous Directives</A
 ></DT
 ></DL
 ></DD
 ><DT
 >3.7. <A
-HREF="#AEN531"
+HREF="#AEN551"
 >Macros</A
 ></DT
 ><DT
 >3.8. <A
-HREF="#AEN554"
+HREF="#AEN574"
 >Structures</A
 ></DT
 ><DT
 >3.9. <A
-HREF="#AEN575"
+HREF="#AEN595"
 >Object Files and Sections</A
 ></DT
 ><DT
 >3.10. <A
-HREF="#AEN639"
+HREF="#AEN659"
 >Assembler Modes and Pragmas</A
 ></DT
+><DT
+>3.11. <A
+HREF="#CONVINST"
+>Convenience Instructions</A
+></DT
+><DT
+>3.12. <A
+HREF="#AEN800"
+>Cycle Counts</A
+></DT
 ></DL
 ></DD
 ><DT
 >4. <A
-HREF="#AEN745"
+HREF="#AEN806"
 >LWLINK</A
 ></DT
 ><DD
 ><DL
 ><DT
 >4.1. <A
-HREF="#AEN748"
+HREF="#AEN809"
 >Command Line Options</A
 ></DT
 ><DT
 >4.2. <A
-HREF="#AEN845"
+HREF="#AEN906"
 >Linker Operation</A
 ></DT
 ><DT
 >4.3. <A
-HREF="#AEN859"
+HREF="#AEN920"
 >Linking Scripts</A
 ></DT
 ><DT
 >4.4. <A
-HREF="#AEN925"
+HREF="#AEN986"
 >Format Specific Linking Notes</A
 ></DT
 ><DD
 ><DL
 ><DT
 >4.4.1. <A
-HREF="#AEN928"
+HREF="#AEN989"
 >OS9 Modules</A
 ></DT
 ></DL
@@ -235,14 +245,14 @@
 ></DD
 ><DT
 >5. <A
-HREF="#AEN940"
+HREF="#AEN1001"
 >Libraries and LWAR</A
 ></DT
 ><DD
 ><DL
 ><DT
 >5.1. <A
-HREF="#AEN944"
+HREF="#AEN1005"
 >Command Line Options</A
 ></DT
 ></DL
@@ -264,12 +274,12 @@
 ></DT
 ><DT
 >6-1. <A
-HREF="#AEN1027"
+HREF="#AEN1088"
 >Object File Term Types</A
 ></DT
 ><DT
 >6-2. <A
-HREF="#AEN1057"
+HREF="#AEN1118"
 >Object File Operator Numbers</A
 ></DT
 ></DL
@@ -556,6 +566,8 @@
 >This will cause the assembler to accept the additional instructions available
 on the 6309 processor. This is the default mode; this option is provided for
 completeness and to override preset command arguments.</P
+><P
+>This option is the same as if the first line of the source code is "PRAGMA 6309".</P
 ></DD
 ><DT
 ><CODE
@@ -582,7 +594,8 @@
 ><DD
 ><P
 >This will cause the assembler to reject instructions that are only available
-on the 6309 processor.</P
+on the 6309 processor. This actually has the effect of starting the assembler
+as though the first line of the source is "PRAGMA 6809".</P
 ></DD
 ><DT
 ><CODE
@@ -782,6 +795,25 @@
 ><DT
 ><CODE
 CLASS="OPTION"
+>-t WIDTH</CODE
+>, <CODE
+CLASS="OPTION"
+>--tabs=WIDTH</CODE
+></DT
+><DD
+><P
+>Specifies the handling of tabs in listing files. <CODE
+CLASS="OPTION"
+>--tabs=0</CODE
+>
+disables tab expansion. <CODE
+CLASS="OPTION"
+>--tabs=8</CODE
+> is the default setting.</P
+></DD
+><DT
+><CODE
+CLASS="OPTION"
 >--help</CODE
 >, <CODE
 CLASS="OPTION"
@@ -833,7 +865,7 @@
 ><HR><H2
 CLASS="SECTION"
 ><A
-NAME="AEN208"
+NAME="AEN218"
 >3.2. Dialects</A
 ></H2
 ><P
@@ -877,7 +909,7 @@
 ><HR><H2
 CLASS="SECTION"
 ><A
-NAME="AEN217"
+NAME="AEN227"
 >3.3. Source Format</A
 ></H2
 ><P
@@ -923,7 +955,7 @@
 ><HR><H2
 CLASS="SECTION"
 ><A
-NAME="AEN227"
+NAME="AEN237"
 >3.4. Symbols</A
 ></H2
 ><P
@@ -951,7 +983,7 @@
 ><HR><H2
 CLASS="SECTION"
 ><A
-NAME="AEN232"
+NAME="AEN242"
 >3.5. Numbers and Expressions</A
 ></H2
 ><P
@@ -996,7 +1028,7 @@
 ><HR><H2
 CLASS="SECTION"
 ><A
-NAME="AEN240"
+NAME="AEN250"
 >3.6. Assembler Directives</A
 ></H2
 ><P
@@ -1009,7 +1041,7 @@
 ><HR><H3
 CLASS="SECTION"
 ><A
-NAME="AEN243"
+NAME="AEN253"
 >3.6.1. Data Directives</A
 ></H3
 ><P
@@ -1243,7 +1275,7 @@
 ><HR><H3
 CLASS="SECTION"
 ><A
-NAME="AEN354"
+NAME="AEN364"
 >3.6.2. Address Definition</A
 ></H3
 ><P
@@ -1269,6 +1301,16 @@
 the raw target format, ORG is used only to determine the addresses of symbols.</P
 ></DD
 ><DT
+>REORG</DT
+><DD
+><P
+>Sets the assembly address to the value it had immediately prior to the
+previous ORG statement. It is used to continue assembly after some
+specification that required an additional ORG. This directive is primarily
+intended for MACRO-80c compatibility. Consider using alternatives in
+modern code.</P
+></DD
+><DT
 ><CODE
 CLASS="PARAMETER"
 >sym</CODE
@@ -1379,7 +1421,7 @@
 ><HR><H3
 CLASS="SECTION"
 ><A
-NAME="AEN401"
+NAME="AEN415"
 >3.6.3. Conditional Assembly</A
 ></H3
 ><P
@@ -1503,6 +1545,18 @@
 will be considered true.</P
 ></DD
 ><DT
+>IFPRAGMA <CODE
+CLASS="PARAMETER"
+>pragma</CODE
+></DT
+><DD
+><P
+>If <CODE
+CLASS="PARAMETER"
+>pragma</CODE
+> is in effect, the condition will be considered true.</P
+></DD
+><DT
 >IFNDEF <CODE
 CLASS="PARAMETER"
 >sym</CODE
@@ -1542,7 +1596,7 @@
 ><HR><H3
 CLASS="SECTION"
 ><A
-NAME="AEN466"
+NAME="AEN486"
 >3.6.4. OS9 Target Directives</A
 ></H3
 ><P
@@ -1609,7 +1663,7 @@
 ><HR><H3
 CLASS="SECTION"
 ><A
-NAME="AEN491"
+NAME="AEN511"
 >3.6.5. Miscelaneous Directives</A
 ></H3
 ><P
@@ -1723,7 +1777,7 @@
 ><HR><H2
 CLASS="SECTION"
 ><A
-NAME="AEN531"
+NAME="AEN551"
 >3.7. Macros</A
 ></H2
 ><P
@@ -1822,7 +1876,7 @@
 ><HR><H2
 CLASS="SECTION"
 ><A
-NAME="AEN554"
+NAME="AEN574"
 >3.8. Structures</A
 ></H2
 ><P
@@ -1915,7 +1969,7 @@
 ><HR><H2
 CLASS="SECTION"
 ><A
-NAME="AEN575"
+NAME="AEN595"
 >3.9. Object Files and Sections</A
 ></H2
 ><P
@@ -2132,7 +2186,7 @@
 ><HR><H2
 CLASS="SECTION"
 ><A
-NAME="AEN639"
+NAME="AEN659"
 >3.10. Assembler Modes and Pragmas</A
 ></H2
 ><P
@@ -2236,6 +2290,32 @@
 version 4.11 so this mode is disabled by default.</P
 ></DD
 ><DT
+>6809</DT
+><DD
+><P
+>This pragma allows you to mark a section of code as 6809-only. In ths mode,
+the assembler will throw an error if any 6309 instructions are used.</P
+></DD
+><DT
+>6309</DT
+><DD
+><P
+>This pragma enables the use of 6309 instructions and disables any 6809 specific
+instructions. It also changes the cycle count listing output (if selected)
+to display 6309 timings.</P
+></DD
+><DT
+>6809conv, 6309conv</DT
+><DD
+><P
+>These pragmas enable convenience instructions extending the 6809 and 6309
+instruction sets respectively. For more information, see
+<A
+HREF="#CONVINST"
+>Section 3.11</A
+>.</P
+></DD
+><DT
 >index0tonone</DT
 ><DD
 ><P
@@ -2431,6 +2511,62 @@
 not override the operand size override prefixes (&lt; and &gt;). It only
 applies when the assembler is left to guess what the operand size is.</P
 ></DD
+><DT
+>qrts</DT
+><DD
+><P
+>&#13;Enables the use of the ?RTS branch target. ?RTS is implemented to maintain
+compatibility with the MACRO-80c assembler.  It works by searching backward
+in the code for an RTS instruction.  If none is found, it inverts the branch
+logic and inserts an RTS following the branch instruction.  Below you can
+see how a BMI (2B xx) has been assembled as a BPL *+1 (2A 01) to skip over an
+inserted RTS (39).</P
+><PRE
+CLASS="PROGRAMLISTING"
+>1D1E 7D1D1D            TST   WHICH1
+1D21 2A0139            BMI   ?RTS
+1D24 BD1D65            JSR   INV</PRE
+></DD
+><DT
+>m80ext</DT
+><DD
+><P
+>&#13;This pragma (along with pragma qrts) enables some uncommon behaviors to
+accomodate The Micro Works MACRO-80c assembler from 1982.  This assembler
+was used by a number of notable TRS-80 Color Computer applications and the
+goal of this pragma is to allow them to build identical binaries from
+unmodified, vintage source code.</P
+><P
+>&#13;In m80ext mode, the handling of the "END" pseudo-op changes when used inside
+an include file.  Instead of terminating all assembly, it merely stops
+processing of the current include file (this behavior matches the original
+Motorola 6809 assembler).  In addition, loading an ASCII value with a single
+quote (e.g., LDA #'N) is extended to 16-bit registers (e.g., LDD #'NO).
+LWASM normally supports this via double quote and that is the proper use in
+modern code.  Finally, the FCC pseudo-op is extended to handle FCB-like
+behavior after the closing delimiter:</P
+><PRE
+CLASS="PROGRAMLISTING"
+>                       FCC "Greetings from 1982",13,0</PRE
+></DD
+><DT
+>testmode</DT
+><DD
+><P
+>&#13;This pragma is intended for internal testing purposes. In testmode, the
+assembler searches for a specially-formatted comment starting with a
+semicolon followed by a period.  Immediately afterward are a list of hex
+bytes that the assembler is expected to generate.  Likewise, if the
+assembler is expected to throw an error or warning on a given line, you can
+check by specifying "E:" followed by the error number.  In this case the
+error is ignored and the assembler continues ignoring the line in question.&#13;</P
+><PRE
+CLASS="PROGRAMLISTING"
+>1D1E 7D1D1D            TST   WHICH1    ;.7d1d1d
+1D21 2A0139            BMI   ?RTS      ;.2a0139
+1D24 1D24              FDB   *         ;.1d24
+1D26                   xyz   INV       ;.E:32    (Error 32 is "Bad opcode")</PRE
+></DD
 ></DL
 ></DIV
 ><P
@@ -2450,12 +2586,76 @@
 file to operate under the nolist pragma.  However, if the file is included
 while nolist is already engaged, it will not undo that state.</P
 ></DIV
+><DIV
+CLASS="SECTION"
+><HR><H2
+CLASS="SECTION"
+><A
+NAME="CONVINST"
+>3.11. Convenience Instructions</A
+></H2
+><P
+>&#13;Similar to the 6800 compatibility instructions (pragma 6800compat) these
+pragma 6809conv and pragma 6309conv enable convenience extensions to the
+6809 and 6309 instruction set.  Originally intended for compatibility with
+the MACRO-80c assembler, these have proven useful in large codebases that
+target both the 6809 and the 6309.</P
+><P
+>&#13;The 6809 extensions are straightforward with the exception of "TSTD" which
+assembles as "STD -2,S".  A benefit of using these is they will "just work"
+and take on their 6309 equivalent when you enable 6309 assembly mode.
+Supported instructions: ASRD, CLRD,   COMD,   LSLD,   LSRD,   NEGD,   TSTD.</P
+><P
+>&#13;6309 extensions are based on common patterns described by Chris Burke and
+Darren Atkinson in their 6309 documentation and include the following
+instructions: ASRQ,   CLRQ,   COMQ,   LSLE,   LSLF,   LSLQ,   LSRQ,   NEGE,
+   NEGF,   NEGW,   NEGQ,   TSTQ.</P
+></DIV
+><DIV
+CLASS="SECTION"
+><HR><H2
+CLASS="SECTION"
+><A
+NAME="AEN800"
+>3.12. Cycle Counts</A
+></H2
+><P
+>&#13;The following options for displaying cycle counts in listings are provided.
+These options are enabled from pragmas on the command line or in the
+assembly files themselves.  For compatibility with other assemblers you can
+use the "OPT" keyword in addition to "PRAGMA."</P
+><PRE
+CLASS="PROGRAMLISTING"
+>opt c  - enable cycle counts: [8]
+opt cd - enable detailed cycle counts breaking down addressing modes: [5+3]
+opt ct - show a running subtotal of cycles
+opt cc - clear the running subtotal</PRE
+><P
+>&#13;The assembler supports both 6809 as well as native-mode 6309 cycle counts.
+In 6309 mode the counts are displayed in parenthesis instead of brackets.
+In addition, some operations have a variable cycle count.  In this case a
+"+?" is displayed to alert the reader.  Sample output is shown below.</P
+><PRE
+CLASS="PROGRAMLISTING"
+>266f 7d25e2     (window.asm):00313 [7]     7       move   tst   putflg
+2672 2602       (window.asm):00314 [5]     12             bne   a@
+2674 1e13       (window.asm):00315 [8]     20             exg   x,u
+2676 0dd6       (window.asm):00316 [6]     26      a@     tst   is6309
+2678 2618       (window.asm):00317 [5]     31             bne   exit@
+                (window.asm):00318                        opt   6309
+267a 10860085   (window.asm):00319 (4)     35      b@     ldw   #133
+267e 113813     (window.asm):00320 (6+?)   41             tfm   x+,u+
+2681 30881b     (window.asm):00321 (4+1)   46             leax  27,x
+2684 33c81b     (window.asm):00322 (4+1)   51             leau  27,u
+2687 4a         (window.asm):00323 (1)     52             deca
+2688 26f0       (window.asm):00324 (5)     57             bne   b@</PRE
+></DIV
 ></DIV
 ><DIV
 CLASS="CHAPTER"
 ><HR><H1
 ><A
-NAME="AEN745"
+NAME="AEN806"
 ></A
 >Chapter 4. LWLINK</H1
 ><P
@@ -2466,7 +2666,7 @@
 ><HR><H2
 CLASS="SECTION"
 ><A
-NAME="AEN748"
+NAME="AEN809"
 >4.1. Command Line Options</A
 ></H2
 ><P
@@ -2663,7 +2863,7 @@
 ><HR><H2
 CLASS="SECTION"
 ><A
-NAME="AEN845"
+NAME="AEN906"
 >4.2. Linker Operation</A
 ></H2
 ><P
@@ -2719,7 +2919,7 @@
 ><HR><H2
 CLASS="SECTION"
 ><A
-NAME="AEN859"
+NAME="AEN920"
 >4.3. Linking Scripts</A
 ></H2
 ><P
@@ -2923,7 +3123,7 @@
 ><HR><H2
 CLASS="SECTION"
 ><A
-NAME="AEN925"
+NAME="AEN986"
 >4.4. Format Specific Linking Notes</A
 ></H2
 ><P
@@ -2936,7 +3136,7 @@
 ><HR><H3
 CLASS="SECTION"
 ><A
-NAME="AEN928"
+NAME="AEN989"
 >4.4.1. OS9 Modules</A
 ></H3
 ><P
@@ -3012,7 +3212,7 @@
 CLASS="CHAPTER"
 ><HR><H1
 ><A
-NAME="AEN940"
+NAME="AEN1001"
 ></A
 >Chapter 5. Libraries and LWAR</H1
 ><P
@@ -3031,7 +3231,7 @@
 ><HR><H2
 CLASS="SECTION"
 ><A
-NAME="AEN944"
+NAME="AEN1005"
 >5.1. Command Line Options</A
 ></H2
 ><P
@@ -3232,7 +3432,7 @@
 ><DIV
 CLASS="TABLE"
 ><A
-NAME="AEN1027"
+NAME="AEN1088"
 ></A
 ><P
 ><B
@@ -3304,7 +3504,7 @@
 ><DIV
 CLASS="TABLE"
 ><A
-NAME="AEN1057"
+NAME="AEN1118"
 ></A
 ><P
 ><B
Binary file docs/manual/manual.pdf has changed
Binary file docs/manual/manual.pdf.orig has changed
--- a/docs/manual/x208.html	Tue Jul 14 23:12:24 2015 -0600
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,179 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
-<HTML
-><HEAD
-><TITLE
->Dialects</TITLE
-><META
-NAME="GENERATOR"
-CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
-REL="HOME"
-TITLE="LW Tool Chain"
-HREF="index.html"><LINK
-REL="UP"
-TITLE="LWASM"
-HREF="c62.html"><LINK
-REL="PREVIOUS"
-TITLE="LWASM"
-HREF="c62.html"><LINK
-REL="NEXT"
-TITLE="Source Format"
-HREF="x217.html"></HEAD
-><BODY
-CLASS="SECTION"
-BGCOLOR="#FFFFFF"
-TEXT="#000000"
-LINK="#0000FF"
-VLINK="#840084"
-ALINK="#0000FF"
-><DIV
-CLASS="NAVHEADER"
-><TABLE
-SUMMARY="Header navigation table"
-WIDTH="100%"
-BORDER="0"
-CELLPADDING="0"
-CELLSPACING="0"
-><TR
-><TH
-COLSPAN="3"
-ALIGN="center"
->LW Tool Chain</TH
-></TR
-><TR
-><TD
-WIDTH="10%"
-ALIGN="left"
-VALIGN="bottom"
-><A
-HREF="c62.html"
-ACCESSKEY="P"
->Prev</A
-></TD
-><TD
-WIDTH="80%"
-ALIGN="center"
-VALIGN="bottom"
->Chapter 3. LWASM</TD
-><TD
-WIDTH="10%"
-ALIGN="right"
-VALIGN="bottom"
-><A
-HREF="x217.html"
-ACCESSKEY="N"
->Next</A
-></TD
-></TR
-></TABLE
-><HR
-ALIGN="LEFT"
-WIDTH="100%"></DIV
-><DIV
-CLASS="SECTION"
-><H1
-CLASS="SECTION"
-><A
-NAME="AEN208"
->3.2. Dialects</A
-></H1
-><P
-> LWASM supports all documented MC6809 instructions as defined by
-Motorola.  By default, this does not include any MC6800 compatibility
-instructions.  As of LWASM 4.11, those compatibility instructions can be
-enabled using the <CODE
-CLASS="PARAMETER"
->--6800compat</CODE
-> option or the
-<CODE
-CLASS="PARAMETER"
->6800compat</CODE
-> pragma.  It also supports all known HD6309
-instructions.  While there is general agreement on the pneumonics for most
-of the 6309 instructions, there is some variance with the block transfer
-instructions.  TFM for all four variations seems to have gained the most
-traction and, thus, this is the form that is recommended for LWASM.
-However, it also supports COPY, COPY-, IMP, EXP, TFRP, TFRM, TFRS, and TFRR.
-It further adds COPY+ as a synomym for COPY, IMPLODE for IMP, and EXPAND for
-EXP.  </P
-><P
->By default, LWASM accepts 6309 instructions. However, using the
-<CODE
-CLASS="PARAMETER"
->--6809</CODE
-> parameter, you can cause it to throw errors on
-6309 instructions instead.</P
-><P
->The standard addressing mode specifiers are supported. These are the
-hash sign ("#") for immediate mode, the less than sign ("&lt;") for forced
-eight bit modes, and the greater than sign ("&gt;") for forced sixteen bit modes.</P
-><P
->Additionally, LWASM supports using the asterisk ("*") to indicate
-base page addressing. This should not be used in hand-written source code,
-however, because it is non-standard and may or may not be present in future
-versions of LWASM.</P
-></DIV
-><DIV
-CLASS="NAVFOOTER"
-><HR
-ALIGN="LEFT"
-WIDTH="100%"><TABLE
-SUMMARY="Footer navigation table"
-WIDTH="100%"
-BORDER="0"
-CELLPADDING="0"
-CELLSPACING="0"
-><TR
-><TD
-WIDTH="33%"
-ALIGN="left"
-VALIGN="top"
-><A
-HREF="c62.html"
-ACCESSKEY="P"
->Prev</A
-></TD
-><TD
-WIDTH="34%"
-ALIGN="center"
-VALIGN="top"
-><A
-HREF="index.html"
-ACCESSKEY="H"
->Home</A
-></TD
-><TD
-WIDTH="33%"
-ALIGN="right"
-VALIGN="top"
-><A
-HREF="x217.html"
-ACCESSKEY="N"
->Next</A
-></TD
-></TR
-><TR
-><TD
-WIDTH="33%"
-ALIGN="left"
-VALIGN="top"
->LWASM</TD
-><TD
-WIDTH="34%"
-ALIGN="center"
-VALIGN="top"
-><A
-HREF="c62.html"
-ACCESSKEY="U"
->Up</A
-></TD
-><TD
-WIDTH="33%"
-ALIGN="right"
-VALIGN="top"
->Source Format</TD
-></TR
-></TABLE
-></DIV
-></BODY
-></HTML
->
\ No newline at end of file
--- a/docs/manual/x217.html	Tue Jul 14 23:12:24 2015 -0600
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,181 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
-<HTML
-><HEAD
-><TITLE
->Source Format</TITLE
-><META
-NAME="GENERATOR"
-CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
-REL="HOME"
-TITLE="LW Tool Chain"
-HREF="index.html"><LINK
-REL="UP"
-TITLE="LWASM"
-HREF="c62.html"><LINK
-REL="PREVIOUS"
-TITLE="Dialects"
-HREF="x208.html"><LINK
-REL="NEXT"
-TITLE="Symbols"
-HREF="x227.html"></HEAD
-><BODY
-CLASS="SECTION"
-BGCOLOR="#FFFFFF"
-TEXT="#000000"
-LINK="#0000FF"
-VLINK="#840084"
-ALINK="#0000FF"
-><DIV
-CLASS="NAVHEADER"
-><TABLE
-SUMMARY="Header navigation table"
-WIDTH="100%"
-BORDER="0"
-CELLPADDING="0"
-CELLSPACING="0"
-><TR
-><TH
-COLSPAN="3"
-ALIGN="center"
->LW Tool Chain</TH
-></TR
-><TR
-><TD
-WIDTH="10%"
-ALIGN="left"
-VALIGN="bottom"
-><A
-HREF="x208.html"
-ACCESSKEY="P"
->Prev</A
-></TD
-><TD
-WIDTH="80%"
-ALIGN="center"
-VALIGN="bottom"
->Chapter 3. LWASM</TD
-><TD
-WIDTH="10%"
-ALIGN="right"
-VALIGN="bottom"
-><A
-HREF="x227.html"
-ACCESSKEY="N"
->Next</A
-></TD
-></TR
-></TABLE
-><HR
-ALIGN="LEFT"
-WIDTH="100%"></DIV
-><DIV
-CLASS="SECTION"
-><H1
-CLASS="SECTION"
-><A
-NAME="AEN217"
->3.3. Source Format</A
-></H1
-><P
->LWASM accepts plain text files in a relatively free form. It can handle
-lines terminated with CR, LF, CRLF, or LFCR which means it should be able
-to assemble files on any platform on which it compiles.</P
-><P
->Each line may start with a symbol. If a symbol is present, there must not
-be any whitespace preceding it. It is legal for a line to contain nothing
-but a symbol.</P
-><P
->The op code is separated from the symbol by whitespace. If there is
-no symbol, there must be at least one white space character preceding it.
-If applicable, the operand follows separated by whitespace. Following the
-opcode and operand is an optional comment.</P
-><P
-> It is important to note that operands cannot contain any whitespace
-except in the case of delimited strings.  This is because the first
-whitespace character will be interpreted as the separator between the
-operand column and the comment.  This behaviour is required for approximate
-source compatibility with other 6x09 assemblers.  </P
-><P
->A comment can also be introduced with a * or a ;. The comment character is
-optional for end of statement comments. However, if a symbol is the only
-thing present on the line other than the comment, the comment character is
-mandatory to prevent the assembler from interpreting the comment as an opcode.</P
-><P
->For compatibility with the output generated by some C preprocessors, LWASM
-will also ignore lines that begin with a #. This should not be used as a general
-comment character, however.</P
-><P
->The opcode is not treated case sensitively. Neither are register names in
-the operand fields. Symbols, however, are case sensitive.</P
-><P
-> As of version 2.6, LWASM supports files with line numbers.  If line
-numbers are present, the line must start with a digit.  The line number
-itself must consist only of digits.  The line number must then be followed
-by either the end of the line or exactly one white space character.  After
-that white space character, the lines are interpreted exactly as above. </P
-></DIV
-><DIV
-CLASS="NAVFOOTER"
-><HR
-ALIGN="LEFT"
-WIDTH="100%"><TABLE
-SUMMARY="Footer navigation table"
-WIDTH="100%"
-BORDER="0"
-CELLPADDING="0"
-CELLSPACING="0"
-><TR
-><TD
-WIDTH="33%"
-ALIGN="left"
-VALIGN="top"
-><A
-HREF="x208.html"
-ACCESSKEY="P"
->Prev</A
-></TD
-><TD
-WIDTH="34%"
-ALIGN="center"
-VALIGN="top"
-><A
-HREF="index.html"
-ACCESSKEY="H"
->Home</A
-></TD
-><TD
-WIDTH="33%"
-ALIGN="right"
-VALIGN="top"
-><A
-HREF="x227.html"
-ACCESSKEY="N"
->Next</A
-></TD
-></TR
-><TR
-><TD
-WIDTH="33%"
-ALIGN="left"
-VALIGN="top"
->Dialects</TD
-><TD
-WIDTH="34%"
-ALIGN="center"
-VALIGN="top"
-><A
-HREF="c62.html"
-ACCESSKEY="U"
->Up</A
-></TD
-><TD
-WIDTH="33%"
-ALIGN="right"
-VALIGN="top"
->Symbols</TD
-></TR
-></TABLE
-></DIV
-></BODY
-></HTML
->
\ No newline at end of file
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/docs/manual/x218.html	Wed Jul 15 19:54:57 2015 -0600
@@ -0,0 +1,179 @@
+<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
+<HTML
+><HEAD
+><TITLE
+>Dialects</TITLE
+><META
+NAME="GENERATOR"
+CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
+REL="HOME"
+TITLE="LW Tool Chain"
+HREF="index.html"><LINK
+REL="UP"
+TITLE="LWASM"
+HREF="c62.html"><LINK
+REL="PREVIOUS"
+TITLE="LWASM"
+HREF="c62.html"><LINK
+REL="NEXT"
+TITLE="Source Format"
+HREF="x227.html"></HEAD
+><BODY
+CLASS="SECTION"
+BGCOLOR="#FFFFFF"
+TEXT="#000000"
+LINK="#0000FF"
+VLINK="#840084"
+ALINK="#0000FF"
+><DIV
+CLASS="NAVHEADER"
+><TABLE
+SUMMARY="Header navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
+><TH
+COLSPAN="3"
+ALIGN="center"
+>LW Tool Chain</TH
+></TR
+><TR
+><TD
+WIDTH="10%"
+ALIGN="left"
+VALIGN="bottom"
+><A
+HREF="c62.html"
+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="80%"
+ALIGN="center"
+VALIGN="bottom"
+>Chapter 3. LWASM</TD
+><TD
+WIDTH="10%"
+ALIGN="right"
+VALIGN="bottom"
+><A
+HREF="x227.html"
+ACCESSKEY="N"
+>Next</A
+></TD
+></TR
+></TABLE
+><HR
+ALIGN="LEFT"
+WIDTH="100%"></DIV
+><DIV
+CLASS="SECTION"
+><H1
+CLASS="SECTION"
+><A
+NAME="AEN218"
+>3.2. Dialects</A
+></H1
+><P
+> LWASM supports all documented MC6809 instructions as defined by
+Motorola.  By default, this does not include any MC6800 compatibility
+instructions.  As of LWASM 4.11, those compatibility instructions can be
+enabled using the <CODE
+CLASS="PARAMETER"
+>--6800compat</CODE
+> option or the
+<CODE
+CLASS="PARAMETER"
+>6800compat</CODE
+> pragma.  It also supports all known HD6309
+instructions.  While there is general agreement on the pneumonics for most
+of the 6309 instructions, there is some variance with the block transfer
+instructions.  TFM for all four variations seems to have gained the most
+traction and, thus, this is the form that is recommended for LWASM.
+However, it also supports COPY, COPY-, IMP, EXP, TFRP, TFRM, TFRS, and TFRR.
+It further adds COPY+ as a synomym for COPY, IMPLODE for IMP, and EXPAND for
+EXP.  </P
+><P
+>By default, LWASM accepts 6309 instructions. However, using the
+<CODE
+CLASS="PARAMETER"
+>--6809</CODE
+> parameter, you can cause it to throw errors on
+6309 instructions instead.</P
+><P
+>The standard addressing mode specifiers are supported. These are the
+hash sign ("#") for immediate mode, the less than sign ("&lt;") for forced
+eight bit modes, and the greater than sign ("&gt;") for forced sixteen bit modes.</P
+><P
+>Additionally, LWASM supports using the asterisk ("*") to indicate
+base page addressing. This should not be used in hand-written source code,
+however, because it is non-standard and may or may not be present in future
+versions of LWASM.</P
+></DIV
+><DIV
+CLASS="NAVFOOTER"
+><HR
+ALIGN="LEFT"
+WIDTH="100%"><TABLE
+SUMMARY="Footer navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
+><TD
+WIDTH="33%"
+ALIGN="left"
+VALIGN="top"
+><A
+HREF="c62.html"
+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="34%"
+ALIGN="center"
+VALIGN="top"
+><A
+HREF="index.html"
+ACCESSKEY="H"
+>Home</A
+></TD
+><TD
+WIDTH="33%"
+ALIGN="right"
+VALIGN="top"
+><A
+HREF="x227.html"
+ACCESSKEY="N"
+>Next</A
+></TD
+></TR
+><TR
+><TD
+WIDTH="33%"
+ALIGN="left"
+VALIGN="top"
+>LWASM</TD
+><TD
+WIDTH="34%"
+ALIGN="center"
+VALIGN="top"
+><A
+HREF="c62.html"
+ACCESSKEY="U"
+>Up</A
+></TD
+><TD
+WIDTH="33%"
+ALIGN="right"
+VALIGN="top"
+>Source Format</TD
+></TR
+></TABLE
+></DIV
+></BODY
+></HTML
+>
\ No newline at end of file
--- a/docs/manual/x227.html	Tue Jul 14 23:12:24 2015 -0600
+++ b/docs/manual/x227.html	Wed Jul 15 19:54:57 2015 -0600
@@ -2,7 +2,7 @@
 <HTML
 ><HEAD
 ><TITLE
->Symbols</TITLE
+>Source Format</TITLE
 ><META
 NAME="GENERATOR"
 CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
@@ -13,11 +13,11 @@
 TITLE="LWASM"
 HREF="c62.html"><LINK
 REL="PREVIOUS"
-TITLE="Source Format"
-HREF="x217.html"><LINK
+TITLE="Dialects"
+HREF="x218.html"><LINK
 REL="NEXT"
-TITLE="Numbers and Expressions"
-HREF="x232.html"></HEAD
+TITLE="Symbols"
+HREF="x237.html"></HEAD
 ><BODY
 CLASS="SECTION"
 BGCOLOR="#FFFFFF"
@@ -45,7 +45,7 @@
 ALIGN="left"
 VALIGN="bottom"
 ><A
-HREF="x217.html"
+HREF="x218.html"
 ACCESSKEY="P"
 >Prev</A
 ></TD
@@ -59,7 +59,7 @@
 ALIGN="right"
 VALIGN="bottom"
 ><A
-HREF="x232.html"
+HREF="x237.html"
 ACCESSKEY="N"
 >Next</A
 ></TD
@@ -74,27 +74,45 @@
 CLASS="SECTION"
 ><A
 NAME="AEN227"
->3.4. Symbols</A
+>3.3. Source Format</A
 ></H1
 ><P
->Symbols have no length restriction. They may contain letters, numbers, dots,
-dollar signs, and underscores. They must start with a letter, dot, or
-underscore.</P
+>LWASM accepts plain text files in a relatively free form. It can handle
+lines terminated with CR, LF, CRLF, or LFCR which means it should be able
+to assemble files on any platform on which it compiles.</P
+><P
+>Each line may start with a symbol. If a symbol is present, there must not
+be any whitespace preceding it. It is legal for a line to contain nothing
+but a symbol.</P
+><P
+>The op code is separated from the symbol by whitespace. If there is
+no symbol, there must be at least one white space character preceding it.
+If applicable, the operand follows separated by whitespace. Following the
+opcode and operand is an optional comment.</P
 ><P
->LWASM also supports the concept of a local symbol. A local symbol is one
-which contains either a "?" or a "@", which can appear anywhere in the symbol.
-The scope of a local symbol is determined by a number of factors. First,
-each included file gets its own local symbol scope. A blank line will also
-be considered a local scope barrier. Macros each have their own local symbol
-scope as well (which has a side effect that you cannot use a local symbol
-as an argument to a macro). There are other factors as well. In general,
-a local symbol is restricted to the block of code it is defined within.</P
+> It is important to note that operands cannot contain any whitespace
+except in the case of delimited strings.  This is because the first
+whitespace character will be interpreted as the separator between the
+operand column and the comment.  This behaviour is required for approximate
+source compatibility with other 6x09 assemblers.  </P
+><P
+>A comment can also be introduced with a * or a ;. The comment character is
+optional for end of statement comments. However, if a symbol is the only
+thing present on the line other than the comment, the comment character is
+mandatory to prevent the assembler from interpreting the comment as an opcode.</P
 ><P
->By default, unless assembling to the os9 target, a "$" in the symbol will
-also make it local.  This can be controlled by the "dollarlocal" and
-"nodollarlocal" pragmas.  In the absence of a pragma to the contrary, for
-the os9 target, a "$" in the symbol will not make it considered local while
-for all other targets it will.</P
+>For compatibility with the output generated by some C preprocessors, LWASM
+will also ignore lines that begin with a #. This should not be used as a general
+comment character, however.</P
+><P
+>The opcode is not treated case sensitively. Neither are register names in
+the operand fields. Symbols, however, are case sensitive.</P
+><P
+> As of version 2.6, LWASM supports files with line numbers.  If line
+numbers are present, the line must start with a digit.  The line number
+itself must consist only of digits.  The line number must then be followed
+by either the end of the line or exactly one white space character.  After
+that white space character, the lines are interpreted exactly as above. </P
 ></DIV
 ><DIV
 CLASS="NAVFOOTER"
@@ -112,7 +130,7 @@
 ALIGN="left"
 VALIGN="top"
 ><A
-HREF="x217.html"
+HREF="x218.html"
 ACCESSKEY="P"
 >Prev</A
 ></TD
@@ -130,7 +148,7 @@
 ALIGN="right"
 VALIGN="top"
 ><A
-HREF="x232.html"
+HREF="x237.html"
 ACCESSKEY="N"
 >Next</A
 ></TD
@@ -140,7 +158,7 @@
 WIDTH="33%"
 ALIGN="left"
 VALIGN="top"
->Source Format</TD
+>Dialects</TD
 ><TD
 WIDTH="34%"
 ALIGN="center"
@@ -154,7 +172,7 @@
 WIDTH="33%"
 ALIGN="right"
 VALIGN="top"
->Numbers and Expressions</TD
+>Symbols</TD
 ></TR
 ></TABLE
 ></DIV
--- a/docs/manual/x232.html	Tue Jul 14 23:12:24 2015 -0600
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,180 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
-<HTML
-><HEAD
-><TITLE
->Numbers and Expressions</TITLE
-><META
-NAME="GENERATOR"
-CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
-REL="HOME"
-TITLE="LW Tool Chain"
-HREF="index.html"><LINK
-REL="UP"
-TITLE="LWASM"
-HREF="c62.html"><LINK
-REL="PREVIOUS"
-TITLE="Symbols"
-HREF="x227.html"><LINK
-REL="NEXT"
-TITLE="Assembler Directives"
-HREF="x240.html"></HEAD
-><BODY
-CLASS="SECTION"
-BGCOLOR="#FFFFFF"
-TEXT="#000000"
-LINK="#0000FF"
-VLINK="#840084"
-ALINK="#0000FF"
-><DIV
-CLASS="NAVHEADER"
-><TABLE
-SUMMARY="Header navigation table"
-WIDTH="100%"
-BORDER="0"
-CELLPADDING="0"
-CELLSPACING="0"
-><TR
-><TH
-COLSPAN="3"
-ALIGN="center"
->LW Tool Chain</TH
-></TR
-><TR
-><TD
-WIDTH="10%"
-ALIGN="left"
-VALIGN="bottom"
-><A
-HREF="x227.html"
-ACCESSKEY="P"
->Prev</A
-></TD
-><TD
-WIDTH="80%"
-ALIGN="center"
-VALIGN="bottom"
->Chapter 3. LWASM</TD
-><TD
-WIDTH="10%"
-ALIGN="right"
-VALIGN="bottom"
-><A
-HREF="x240.html"
-ACCESSKEY="N"
->Next</A
-></TD
-></TR
-></TABLE
-><HR
-ALIGN="LEFT"
-WIDTH="100%"></DIV
-><DIV
-CLASS="SECTION"
-><H1
-CLASS="SECTION"
-><A
-NAME="AEN232"
->3.5. Numbers and Expressions</A
-></H1
-><P
->&#13;Numbers can be expressed in binary, octal, decimal, or hexadecimal. Binary
-numbers may be prefixed with a "%" symbol or suffixed with a "b" or "B".
-Octal numbers may be prefixed with "@" or suffixed with "Q", "q", "O", or
-"o". Hexadecimal numbers may be prefixed with "$", "0x" or "0X", or suffixed
-with "H". No prefix or suffix is required for decimal numbers but they can
-be prefixed with "&amp;" if desired. Any constant which begins with a letter
-must be expressed with the correct prefix base identifier or be prefixed
-with a 0. Thus hexadecimal FF would have to be written either 0FFH or $FF.
-Numbers are not case sensitive.&#13;</P
-><P
-> A symbol may appear at any point where a number is acceptable. The
-special symbol "*" can be used to represent the starting address of the
-current source line within expressions. </P
-><P
->The ASCII value of a character can be included by prefixing it with a
-single quote ('). The ASCII values of two characters can be included by
-prefixing the characters with a quote (").</P
-><P
->&#13;LWASM supports the following basic binary operators: +, -, *, /, and %.
-These represent addition, subtraction, multiplication, division, and
-modulus.  It also supports unary negation and unary 1's complement (- and ^
-respectively).  It is also possible to use ~ for the unary 1's complement
-operator.  For completeness, a unary positive (+) is supported though it is
-a no-op.  LWASM also supports using |, &#38;, and ^ for bitwise or, bitwise and,
-and bitwise exclusive or respectively.&#13;</P
-><P
->&#13;Operator precedence follows the usual rules. Multiplication, division, and
-modulus take precedence over addition and subtraction.  Unary operators take
-precedence over binary operators.  Bitwise operators are lower precdence
-than addition and subtraction.  To force a specific order of evaluation,
-parentheses can be used in the usual manner.&#13;</P
-><P
->&#13;As of LWASM 2.5, the operators &#38;&#38; and || are recognized for boolean and and
-boolean or respectively.  They will return either 0 or 1 (false or true).
-They have the lowest precedence of all the binary operators.&#13;</P
-></DIV
-><DIV
-CLASS="NAVFOOTER"
-><HR
-ALIGN="LEFT"
-WIDTH="100%"><TABLE
-SUMMARY="Footer navigation table"
-WIDTH="100%"
-BORDER="0"
-CELLPADDING="0"
-CELLSPACING="0"
-><TR
-><TD
-WIDTH="33%"
-ALIGN="left"
-VALIGN="top"
-><A
-HREF="x227.html"
-ACCESSKEY="P"
->Prev</A
-></TD
-><TD
-WIDTH="34%"
-ALIGN="center"
-VALIGN="top"
-><A
-HREF="index.html"
-ACCESSKEY="H"
->Home</A
-></TD
-><TD
-WIDTH="33%"
-ALIGN="right"
-VALIGN="top"
-><A
-HREF="x240.html"
-ACCESSKEY="N"
->Next</A
-></TD
-></TR
-><TR
-><TD
-WIDTH="33%"
-ALIGN="left"
-VALIGN="top"
->Symbols</TD
-><TD
-WIDTH="34%"
-ALIGN="center"
-VALIGN="top"
-><A
-HREF="c62.html"
-ACCESSKEY="U"
->Up</A
-></TD
-><TD
-WIDTH="33%"
-ALIGN="right"
-VALIGN="top"
->Assembler Directives</TD
-></TR
-></TABLE
-></DIV
-></BODY
-></HTML
->
\ No newline at end of file
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/docs/manual/x237.html	Wed Jul 15 19:54:57 2015 -0600
@@ -0,0 +1,163 @@
+<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
+<HTML
+><HEAD
+><TITLE
+>Symbols</TITLE
+><META
+NAME="GENERATOR"
+CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
+REL="HOME"
+TITLE="LW Tool Chain"
+HREF="index.html"><LINK
+REL="UP"
+TITLE="LWASM"
+HREF="c62.html"><LINK
+REL="PREVIOUS"
+TITLE="Source Format"
+HREF="x227.html"><LINK
+REL="NEXT"
+TITLE="Numbers and Expressions"
+HREF="x242.html"></HEAD
+><BODY
+CLASS="SECTION"
+BGCOLOR="#FFFFFF"
+TEXT="#000000"
+LINK="#0000FF"
+VLINK="#840084"
+ALINK="#0000FF"
+><DIV
+CLASS="NAVHEADER"
+><TABLE
+SUMMARY="Header navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
+><TH
+COLSPAN="3"
+ALIGN="center"
+>LW Tool Chain</TH
+></TR
+><TR
+><TD
+WIDTH="10%"
+ALIGN="left"
+VALIGN="bottom"
+><A
+HREF="x227.html"
+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="80%"
+ALIGN="center"
+VALIGN="bottom"
+>Chapter 3. LWASM</TD
+><TD
+WIDTH="10%"
+ALIGN="right"
+VALIGN="bottom"
+><A
+HREF="x242.html"
+ACCESSKEY="N"
+>Next</A
+></TD
+></TR
+></TABLE
+><HR
+ALIGN="LEFT"
+WIDTH="100%"></DIV
+><DIV
+CLASS="SECTION"
+><H1
+CLASS="SECTION"
+><A
+NAME="AEN237"
+>3.4. Symbols</A
+></H1
+><P
+>Symbols have no length restriction. They may contain letters, numbers, dots,
+dollar signs, and underscores. They must start with a letter, dot, or
+underscore.</P
+><P
+>LWASM also supports the concept of a local symbol. A local symbol is one
+which contains either a "?" or a "@", which can appear anywhere in the symbol.
+The scope of a local symbol is determined by a number of factors. First,
+each included file gets its own local symbol scope. A blank line will also
+be considered a local scope barrier. Macros each have their own local symbol
+scope as well (which has a side effect that you cannot use a local symbol
+as an argument to a macro). There are other factors as well. In general,
+a local symbol is restricted to the block of code it is defined within.</P
+><P
+>By default, unless assembling to the os9 target, a "$" in the symbol will
+also make it local.  This can be controlled by the "dollarlocal" and
+"nodollarlocal" pragmas.  In the absence of a pragma to the contrary, for
+the os9 target, a "$" in the symbol will not make it considered local while
+for all other targets it will.</P
+></DIV
+><DIV
+CLASS="NAVFOOTER"
+><HR
+ALIGN="LEFT"
+WIDTH="100%"><TABLE
+SUMMARY="Footer navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
+><TD
+WIDTH="33%"
+ALIGN="left"
+VALIGN="top"
+><A
+HREF="x227.html"
+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="34%"
+ALIGN="center"
+VALIGN="top"
+><A
+HREF="index.html"
+ACCESSKEY="H"
+>Home</A
+></TD
+><TD
+WIDTH="33%"
+ALIGN="right"
+VALIGN="top"
+><A
+HREF="x242.html"
+ACCESSKEY="N"
+>Next</A
+></TD
+></TR
+><TR
+><TD
+WIDTH="33%"
+ALIGN="left"
+VALIGN="top"
+>Source Format</TD
+><TD
+WIDTH="34%"
+ALIGN="center"
+VALIGN="top"
+><A
+HREF="c62.html"
+ACCESSKEY="U"
+>Up</A
+></TD
+><TD
+WIDTH="33%"
+ALIGN="right"
+VALIGN="top"
+>Numbers and Expressions</TD
+></TR
+></TABLE
+></DIV
+></BODY
+></HTML
+>
\ No newline at end of file
--- a/docs/manual/x240.html	Tue Jul 14 23:12:24 2015 -0600
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,862 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
-<HTML
-><HEAD
-><TITLE
->Assembler Directives</TITLE
-><META
-NAME="GENERATOR"
-CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
-REL="HOME"
-TITLE="LW Tool Chain"
-HREF="index.html"><LINK
-REL="UP"
-TITLE="LWASM"
-HREF="c62.html"><LINK
-REL="PREVIOUS"
-TITLE="Numbers and Expressions"
-HREF="x232.html"><LINK
-REL="NEXT"
-TITLE="Macros"
-HREF="x531.html"></HEAD
-><BODY
-CLASS="SECTION"
-BGCOLOR="#FFFFFF"
-TEXT="#000000"
-LINK="#0000FF"
-VLINK="#840084"
-ALINK="#0000FF"
-><DIV
-CLASS="NAVHEADER"
-><TABLE
-SUMMARY="Header navigation table"
-WIDTH="100%"
-BORDER="0"
-CELLPADDING="0"
-CELLSPACING="0"
-><TR
-><TH
-COLSPAN="3"
-ALIGN="center"
->LW Tool Chain</TH
-></TR
-><TR
-><TD
-WIDTH="10%"
-ALIGN="left"
-VALIGN="bottom"
-><A
-HREF="x232.html"
-ACCESSKEY="P"
->Prev</A
-></TD
-><TD
-WIDTH="80%"
-ALIGN="center"
-VALIGN="bottom"
->Chapter 3. LWASM</TD
-><TD
-WIDTH="10%"
-ALIGN="right"
-VALIGN="bottom"
-><A
-HREF="x531.html"
-ACCESSKEY="N"
->Next</A
-></TD
-></TR
-></TABLE
-><HR
-ALIGN="LEFT"
-WIDTH="100%"></DIV
-><DIV
-CLASS="SECTION"
-><H1
-CLASS="SECTION"
-><A
-NAME="AEN240"
->3.6. Assembler Directives</A
-></H1
-><P
->Various directives can be used to control the behaviour of the
-assembler or to include non-code/data in the resulting output. Those directives
-that are not described in detail in other sections of this document are
-described below.</P
-><DIV
-CLASS="SECTION"
-><H2
-CLASS="SECTION"
-><A
-NAME="AEN243"
->3.6.1. Data Directives</A
-></H2
-><P
-></P
-><DIV
-CLASS="VARIABLELIST"
-><DL
-><DT
->FCB <CODE
-CLASS="PARAMETER"
->expr[,...]</CODE
->, .DB <CODE
-CLASS="PARAMETER"
->expr[,...]</CODE
->, .BYTE <CODE
-CLASS="PARAMETER"
->expr[,...]</CODE
-></DT
-><DD
-><P
->Include one or more constant bytes (separated by commas) in the output.</P
-></DD
-><DT
->FDB <CODE
-CLASS="PARAMETER"
->expr[,...]</CODE
->, .DW <CODE
-CLASS="PARAMETER"
->expr[,...]</CODE
->, .WORD <CODE
-CLASS="PARAMETER"
->expr[,...]</CODE
-></DT
-><DD
-><P
->Include one or more words (separated by commas) in the output.</P
-></DD
-><DT
->FQB <CODE
-CLASS="PARAMETER"
->expr[,...]</CODE
->, .QUAD <CODE
-CLASS="PARAMETER"
->expr[,...]</CODE
->, .4BYTE <CODE
-CLASS="PARAMETER"
->expr[,...]</CODE
-></DT
-><DD
-><P
->Include one or more double words (separated by commas) in the output.</P
-></DD
-><DT
->FCC <CODE
-CLASS="PARAMETER"
->string</CODE
->, .ASCII <CODE
-CLASS="PARAMETER"
->string</CODE
->, .STR <CODE
-CLASS="PARAMETER"
->string</CODE
-></DT
-><DD
-><P
->Include a string of text in the output. The first character of the operand
-is the delimiter which must appear as the last character and cannot appear
-within the string. The string is included with no modifications&#62;</P
-></DD
-><DT
->FCN <CODE
-CLASS="PARAMETER"
->string</CODE
->, .ASCIZ <CODE
-CLASS="PARAMETER"
->string</CODE
->, .STRZ <CODE
-CLASS="PARAMETER"
->string</CODE
-></DT
-><DD
-><P
->Include a NUL terminated string of text in the output. The first character of
-the operand is the delimiter which must appear as the last character and
-cannot appear within the string. A NUL byte is automatically appended to
-the string.</P
-></DD
-><DT
->FCS <CODE
-CLASS="PARAMETER"
->string</CODE
->, .ASCIS <CODE
-CLASS="PARAMETER"
->string</CODE
->, .STRS <CODE
-CLASS="PARAMETER"
->string</CODE
-></DT
-><DD
-><P
->Include a string of text in the output with bit 7 of the final byte set. The
-first character of the operand is the delimiter which must appear as the last
-character and cannot appear within the string.</P
-></DD
-><DT
->ZMB <CODE
-CLASS="PARAMETER"
->expr</CODE
-></DT
-><DD
-><P
->Include a number of NUL bytes in the output. The number must be fully resolvable
-during pass 1 of assembly so no forward or external references are permitted.</P
-></DD
-><DT
->ZMD <CODE
-CLASS="PARAMETER"
->expr</CODE
-></DT
-><DD
-><P
->Include a number of zero words in the output. The number must be fully
-resolvable during pass 1 of assembly so no forward or external references are
-permitted.</P
-></DD
-><DT
->ZMQ <CODE
-CLASS="PARAMETER"
->expr<CODE
-CLASS="PARAMETER"
-></CODE
-></CODE
-></DT
-><DD
-><P
->Include a number of zero double-words in the output. The number must be fully
-resolvable during pass 1 of assembly so no forward or external references are
-permitted.</P
-></DD
-><DT
->RMB <CODE
-CLASS="PARAMETER"
->expr</CODE
->, .BLKB <CODE
-CLASS="PARAMETER"
->expr</CODE
->, .DS <CODE
-CLASS="PARAMETER"
->expr</CODE
->, .RS <CODE
-CLASS="PARAMETER"
->expr</CODE
-></DT
-><DD
-><P
->Reserve a number of bytes in the output. The number must be fully resolvable
-during pass 1 of assembly so no forward or external references are permitted.
-The value of the bytes is undefined.</P
-></DD
-><DT
->RMD <CODE
-CLASS="PARAMETER"
->expr</CODE
-></DT
-><DD
-><P
->Reserve a number of words in the output. The number must be fully
-resolvable during pass 1 of assembly so no forward or external references are
-permitted. The value of the words is undefined.</P
-></DD
-><DT
->RMQ <CODE
-CLASS="PARAMETER"
->expr</CODE
-></DT
-><DD
-><P
->Reserve a number of double-words in the output. The number must be fully
-resolvable during pass 1 of assembly so no forward or external references are
-permitted. The value of the double-words is undefined.</P
-></DD
-><DT
->INCLUDEBIN <CODE
-CLASS="PARAMETER"
->filename</CODE
-></DT
-><DD
-><P
->Treat the contents of <CODE
-CLASS="PARAMETER"
->filename</CODE
-> as a string of bytes to
-be included literally at the current assembly point. This has the same effect
-as converting the file contents to a series of FCB statements and including
-those at the current assembly point.</P
-><P
-> If <CODE
-CLASS="PARAMETER"
->filename</CODE
-> beings with a /, the file name
-will be taken as absolute.  Otherwise, the current directory will be
-searched followed by the search path in the order specified.</P
-><P
-> Please note that absolute path detection including drive letters will
-not function correctly on Windows platforms.  Non-absolute inclusion will
-work, however.</P
-></DD
-><DT
->FILL <CODE
-CLASS="PARAMETER"
->size</CODE
->,<CODE
-CLASS="PARAMETER"
->byte</CODE
-></DT
-><DD
-><P
->Insert <CODE
-CLASS="PARAMETER"
->size</CODE
-> bytes of <CODE
-CLASS="PARAMETER"
->byte</CODE
->.</P
-></DD
-></DL
-></DIV
-></DIV
-><DIV
-CLASS="SECTION"
-><H2
-CLASS="SECTION"
-><A
-NAME="AEN354"
->3.6.2. Address Definition</A
-></H2
-><P
->The directives in this section all control the addresses of symbols
-or the assembly process itself.</P
-><P
-></P
-><DIV
-CLASS="VARIABLELIST"
-><DL
-><DT
->ORG <CODE
-CLASS="PARAMETER"
->expr</CODE
-></DT
-><DD
-><P
->Set the assembly address. The address must be fully resolvable on the
-first pass so no external or forward references are permitted. ORG is not
-permitted within sections when outputting to object files. For target formats
-that include address information (decb, hex, srec, and ihex), an ORG
-directive will re-start the address sequence within the output. When using
-the raw target format, ORG is used only to determine the addresses of symbols.</P
-></DD
-><DT
-><CODE
-CLASS="PARAMETER"
->sym</CODE
-> EQU <CODE
-CLASS="PARAMETER"
->expr</CODE
->, <CODE
-CLASS="PARAMETER"
->sym</CODE
-> = <CODE
-CLASS="PARAMETER"
->expr</CODE
-></DT
-><DD
-><P
->Define the value of <CODE
-CLASS="PARAMETER"
->sym</CODE
-> to be <CODE
-CLASS="PARAMETER"
->expr</CODE
->.</P
-></DD
-><DT
-><CODE
-CLASS="PARAMETER"
->sym</CODE
-> SET <CODE
-CLASS="PARAMETER"
->expr</CODE
-></DT
-><DD
-><P
->Define the value of <CODE
-CLASS="PARAMETER"
->sym</CODE
-> to be <CODE
-CLASS="PARAMETER"
->expr</CODE
->.
-Unlike EQU, SET permits symbols to be defined multiple times as long as SET
-is used for all instances. Use of the symbol before the first SET statement
-that sets its value is undefined.</P
-></DD
-><DT
->SETDP <CODE
-CLASS="PARAMETER"
->expr</CODE
-></DT
-><DD
-><P
->Inform the assembler that it can assume the DP register contains
-<CODE
-CLASS="PARAMETER"
->expr</CODE
->. This directive is only advice to the assembler
-to determine whether an address is in the direct page and has no effect
-on the contents of the DP register. The value must be fully resolved during
-the first assembly pass because it affects the sizes of subsequent instructions.</P
-><P
->This directive has no effect in the object file target.</P
-></DD
-><DT
->ALIGN <CODE
-CLASS="PARAMETER"
->expr</CODE
->[,<CODE
-CLASS="PARAMETER"
->value</CODE
->]</DT
-><DD
-><P
->Force the current assembly address to be a multiple of
-<CODE
-CLASS="PARAMETER"
->expr</CODE
->.  If <CODE
-CLASS="PARAMETER"
->value</CODE
-> is not
-specified, a series of NUL bytes is output to force the alignment, if
-required.  Otherwise, the low order 8 bits of <CODE
-CLASS="PARAMETER"
->value</CODE
->
-will be used as the fill.  The alignment value must be fully resolved on the
-first pass because it affects the addresses of subsquent instructions.
-However, <CODE
-CLASS="PARAMETER"
->value</CODE
-> may include forward references; as
-long as it resolves to a constant for the second pass, the value will be
-accepted.</P
-><P
->Unless <CODE
-CLASS="PARAMETER"
->value</CODE
-> is specified as something like $12,
-this directive is not suitable for inclusion in the middle of actual code.
-The default padding value is $00 which is intended to be used within data
-blocks.  </P
-></DD
-></DL
-></DIV
-></DIV
-><DIV
-CLASS="SECTION"
-><H2
-CLASS="SECTION"
-><A
-NAME="AEN401"
->3.6.3. Conditional Assembly</A
-></H2
-><P
->Portions of the source code can be excluded or included based on conditions
-known at assembly time. Conditionals can be nested arbitrarily deeply. The
-directives associated with conditional assembly are described in this section.</P
-><P
->All conditionals must be fully bracketed. That is, every conditional
-statement must eventually be followed by an ENDC at the same level of nesting.</P
-><P
->Conditional expressions are only evaluated on the first assembly pass.
-It is not possible to game the assembly process by having a conditional
-change its value between assembly passes. Due to the underlying architecture
-of LWASM, there is no possible utility to IFP1 and IFP2, nor can they, as of LWASM 3.0, actually
-be implemented meaningfully. Thus there is not and never will
-be any equivalent of IFP1 or IFP2 as provided by other assemblers. Use of those opcodes
-will throw a warning and be ignored.</P
-><P
->It is important to note that if a conditional does not resolve to a constant
-during the first parsing pass, an error will be thrown. This is unavoidable because the assembler
-must make a decision about which source to include and which source to exclude at this stage.
-Thus, expressions that work normally elsewhere will not work for conditions.</P
-><P
-></P
-><DIV
-CLASS="VARIABLELIST"
-><DL
-><DT
->IFEQ <CODE
-CLASS="PARAMETER"
->expr</CODE
-></DT
-><DD
-><P
->If <CODE
-CLASS="PARAMETER"
->expr</CODE
-> evaluates to zero, the conditional
-will be considered true.</P
-></DD
-><DT
->IFNE <CODE
-CLASS="PARAMETER"
->expr</CODE
->, IF <CODE
-CLASS="PARAMETER"
->expr</CODE
-></DT
-><DD
-><P
->If <CODE
-CLASS="PARAMETER"
->expr</CODE
-> evaluates to a non-zero value, the conditional
-will be considered true.</P
-></DD
-><DT
->IFGT <CODE
-CLASS="PARAMETER"
->expr</CODE
-></DT
-><DD
-><P
->If <CODE
-CLASS="PARAMETER"
->expr</CODE
-> evaluates to a value greater than zero, the conditional
-will be considered true.</P
-></DD
-><DT
->IFGE <CODE
-CLASS="PARAMETER"
->expr</CODE
-></DT
-><DD
-><P
->If <CODE
-CLASS="PARAMETER"
->expr</CODE
-> evaluates to a value greater than or equal to zero, the conditional
-will be considered true.</P
-></DD
-><DT
->IFLT <CODE
-CLASS="PARAMETER"
->expr</CODE
-></DT
-><DD
-><P
->If <CODE
-CLASS="PARAMETER"
->expr</CODE
-> evaluates to a value less than zero, the conditional
-will be considered true.</P
-></DD
-><DT
->IFLE <CODE
-CLASS="PARAMETER"
->expr</CODE
-></DT
-><DD
-><P
->If <CODE
-CLASS="PARAMETER"
->expr</CODE
-> evaluates to a value less than or equal to zero , the conditional
-will be considered true.</P
-></DD
-><DT
->IFDEF <CODE
-CLASS="PARAMETER"
->sym</CODE
-></DT
-><DD
-><P
->If <CODE
-CLASS="PARAMETER"
->sym</CODE
-> is defined at this point in the assembly
-process, the conditional
-will be considered true.</P
-></DD
-><DT
->IFNDEF <CODE
-CLASS="PARAMETER"
->sym</CODE
-></DT
-><DD
-><P
->If <CODE
-CLASS="PARAMETER"
->sym</CODE
-> is not defined at this point in the assembly
-process, the conditional
-will be considered true.</P
-></DD
-><DT
->ELSE</DT
-><DD
-><P
->If the preceding conditional at the same level of nesting was false, the
-statements following will be assembled. If the preceding conditional at
-the same level was true, the statements following will not be assembled.
-Note that the preceding conditional might have been another ELSE statement
-although this behaviour is not guaranteed to be supported in future versions
-of LWASM.</P
-></DD
-><DT
->ENDC</DT
-><DD
-><P
->This directive marks the end of a conditional construct. Every conditional
-construct must end with an ENDC directive.</P
-></DD
-></DL
-></DIV
-></DIV
-><DIV
-CLASS="SECTION"
-><H2
-CLASS="SECTION"
-><A
-NAME="AEN466"
->3.6.4. OS9 Target Directives</A
-></H2
-><P
->This section includes directives that apply solely to the OS9
-target.</P
-><P
-></P
-><DIV
-CLASS="VARIABLELIST"
-><DL
-><DT
->OS9 <CODE
-CLASS="PARAMETER"
->syscall</CODE
-></DT
-><DD
-><P
->&#13;This directive generates a call to the specified system call. <CODE
-CLASS="PARAMETER"
->syscall</CODE
-> may be an arbitrary expression.&#13;</P
-></DD
-><DT
->MOD <CODE
-CLASS="PARAMETER"
->size</CODE
->,<CODE
-CLASS="PARAMETER"
->name</CODE
->,<CODE
-CLASS="PARAMETER"
->type</CODE
->,<CODE
-CLASS="PARAMETER"
->flags</CODE
->,<CODE
-CLASS="PARAMETER"
->execoff</CODE
->,<CODE
-CLASS="PARAMETER"
->datasize</CODE
-></DT
-><DD
-><P
->&#13;This tells LWASM that the beginning of the actual module is here. It will
-generate a module header based on the parameters specified.  It will also
-begin calcuating the module CRC.&#13;</P
-><P
->&#13;The precise meaning of the various parameters is beyond the scope of this
-document since it is not a tutorial on OS9 module programming.&#13;</P
-></DD
-><DT
->EMOD</DT
-><DD
-><P
->&#13;This marks the end of a module and causes LWASM to emit the calculated CRC
-for the module.&#13;</P
-></DD
-></DL
-></DIV
-></DIV
-><DIV
-CLASS="SECTION"
-><H2
-CLASS="SECTION"
-><A
-NAME="AEN491"
->3.6.5. Miscelaneous Directives</A
-></H2
-><P
->This section includes directives that do not fit into the other
-categories.</P
-><P
-></P
-><DIV
-CLASS="VARIABLELIST"
-><DL
-><DT
->INCLUDE <CODE
-CLASS="PARAMETER"
->filename</CODE
->, USE <CODE
-CLASS="PARAMETER"
->filename</CODE
-></DT
-><DD
-><P
-> Include the contents of <CODE
-CLASS="PARAMETER"
->filename</CODE
-> at
-this point in the assembly as though it were a part of the file currently
-being processed.  Note that if whitespace appears in the name of the file,
-you must enclose <CODE
-CLASS="PARAMETER"
->filename</CODE
-> in quotes.</P
-><P
->Note that the USE variation is provided only for compatibility with other
-assemblers. It is recommended to use the INCLUDE variation.</P
-><P
->If <CODE
-CLASS="PARAMETER"
->filename</CODE
-> begins with a &quot;/&quot;, it is
-interpreted as an absolute path. If it does not, the search path will be used
-to find the file. First, the directory containing the file that contains this
-directive. (Includes within an included file are relative to the included file,
-not the file that included it.) If the file is not found there, the include path
-is searched. If it is still not found, an error will be thrown. Note that the
-current directory as understood by your shell or operating system is not searched.</P
-></DD
-><DT
->END <CODE
-CLASS="PARAMETER"
->[expr]</CODE
-></DT
-><DD
-><P
->This directive causes the assembler to stop assembling immediately as though
-it ran out of input. For the DECB target only, <CODE
-CLASS="PARAMETER"
->expr</CODE
->
-can be used to set the execution address of the resulting binary. For all
-other targets, specifying <CODE
-CLASS="PARAMETER"
->expr</CODE
-> will cause an error.</P
-></DD
-><DT
->ERROR <CODE
-CLASS="PARAMETER"
->string</CODE
-></DT
-><DD
-><P
->Causes a custom error message to be printed at this line. This will cause
-assembly to fail. This directive is most useful inside conditional constructs
-to cause assembly to fail if some condition that is known bad happens. Everything
-from the directive to the end of the line is considered the error message.</P
-></DD
-><DT
->WARNING <CODE
-CLASS="PARAMETER"
->string</CODE
-></DT
-><DD
-><P
->Causes a custom warning message to be printed at this line. This will not cause
-assembly to fail. This directive is most useful inside conditional constructs
-or include files to alert the programmer to a deprecated feature being used
-or some other condition that may cause trouble later, but which may, in fact,
-not cause any trouble.</P
-></DD
-><DT
->.MODULE <CODE
-CLASS="PARAMETER"
->string</CODE
-></DT
-><DD
-><P
->This directive is ignored for most output targets. If the output target
-supports encoding a module name into it, <CODE
-CLASS="PARAMETER"
->string</CODE
->
-will be used as the module name.</P
-><P
->As of version 3.0, no supported output targets support this directive.</P
-></DD
-></DL
-></DIV
-></DIV
-></DIV
-><DIV
-CLASS="NAVFOOTER"
-><HR
-ALIGN="LEFT"
-WIDTH="100%"><TABLE
-SUMMARY="Footer navigation table"
-WIDTH="100%"
-BORDER="0"
-CELLPADDING="0"
-CELLSPACING="0"
-><TR
-><TD
-WIDTH="33%"
-ALIGN="left"
-VALIGN="top"
-><A
-HREF="x232.html"
-ACCESSKEY="P"
->Prev</A
-></TD
-><TD
-WIDTH="34%"
-ALIGN="center"
-VALIGN="top"
-><A
-HREF="index.html"
-ACCESSKEY="H"
->Home</A
-></TD
-><TD
-WIDTH="33%"
-ALIGN="right"
-VALIGN="top"
-><A
-HREF="x531.html"
-ACCESSKEY="N"
->Next</A
-></TD
-></TR
-><TR
-><TD
-WIDTH="33%"
-ALIGN="left"
-VALIGN="top"
->Numbers and Expressions</TD
-><TD
-WIDTH="34%"
-ALIGN="center"
-VALIGN="top"
-><A
-HREF="c62.html"
-ACCESSKEY="U"
->Up</A
-></TD
-><TD
-WIDTH="33%"
-ALIGN="right"
-VALIGN="top"
->Macros</TD
-></TR
-></TABLE
-></DIV
-></BODY
-></HTML
->
\ No newline at end of file
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/docs/manual/x242.html	Wed Jul 15 19:54:57 2015 -0600
@@ -0,0 +1,180 @@
+<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
+<HTML
+><HEAD
+><TITLE
+>Numbers and Expressions</TITLE
+><META
+NAME="GENERATOR"
+CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
+REL="HOME"
+TITLE="LW Tool Chain"
+HREF="index.html"><LINK
+REL="UP"
+TITLE="LWASM"
+HREF="c62.html"><LINK
+REL="PREVIOUS"
+TITLE="Symbols"
+HREF="x237.html"><LINK
+REL="NEXT"
+TITLE="Assembler Directives"
+HREF="x250.html"></HEAD
+><BODY
+CLASS="SECTION"
+BGCOLOR="#FFFFFF"
+TEXT="#000000"
+LINK="#0000FF"
+VLINK="#840084"
+ALINK="#0000FF"
+><DIV
+CLASS="NAVHEADER"
+><TABLE
+SUMMARY="Header navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
+><TH
+COLSPAN="3"
+ALIGN="center"
+>LW Tool Chain</TH
+></TR
+><TR
+><TD
+WIDTH="10%"
+ALIGN="left"
+VALIGN="bottom"
+><A
+HREF="x237.html"
+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="80%"
+ALIGN="center"
+VALIGN="bottom"
+>Chapter 3. LWASM</TD
+><TD
+WIDTH="10%"
+ALIGN="right"
+VALIGN="bottom"
+><A
+HREF="x250.html"
+ACCESSKEY="N"
+>Next</A
+></TD
+></TR
+></TABLE
+><HR
+ALIGN="LEFT"
+WIDTH="100%"></DIV
+><DIV
+CLASS="SECTION"
+><H1
+CLASS="SECTION"
+><A
+NAME="AEN242"
+>3.5. Numbers and Expressions</A
+></H1
+><P
+>&#13;Numbers can be expressed in binary, octal, decimal, or hexadecimal. Binary
+numbers may be prefixed with a "%" symbol or suffixed with a "b" or "B".
+Octal numbers may be prefixed with "@" or suffixed with "Q", "q", "O", or
+"o". Hexadecimal numbers may be prefixed with "$", "0x" or "0X", or suffixed
+with "H". No prefix or suffix is required for decimal numbers but they can
+be prefixed with "&amp;" if desired. Any constant which begins with a letter
+must be expressed with the correct prefix base identifier or be prefixed
+with a 0. Thus hexadecimal FF would have to be written either 0FFH or $FF.
+Numbers are not case sensitive.&#13;</P
+><P
+> A symbol may appear at any point where a number is acceptable. The
+special symbol "*" can be used to represent the starting address of the
+current source line within expressions. </P
+><P
+>The ASCII value of a character can be included by prefixing it with a
+single quote ('). The ASCII values of two characters can be included by
+prefixing the characters with a quote (").</P
+><P
+>&#13;LWASM supports the following basic binary operators: +, -, *, /, and %.
+These represent addition, subtraction, multiplication, division, and
+modulus.  It also supports unary negation and unary 1's complement (- and ^
+respectively).  It is also possible to use ~ for the unary 1's complement
+operator.  For completeness, a unary positive (+) is supported though it is
+a no-op.  LWASM also supports using |, &#38;, and ^ for bitwise or, bitwise and,
+and bitwise exclusive or respectively.&#13;</P
+><P
+>&#13;Operator precedence follows the usual rules. Multiplication, division, and
+modulus take precedence over addition and subtraction.  Unary operators take
+precedence over binary operators.  Bitwise operators are lower precdence
+than addition and subtraction.  To force a specific order of evaluation,
+parentheses can be used in the usual manner.&#13;</P
+><P
+>&#13;As of LWASM 2.5, the operators &#38;&#38; and || are recognized for boolean and and
+boolean or respectively.  They will return either 0 or 1 (false or true).
+They have the lowest precedence of all the binary operators.&#13;</P
+></DIV
+><DIV
+CLASS="NAVFOOTER"
+><HR
+ALIGN="LEFT"
+WIDTH="100%"><TABLE
+SUMMARY="Footer navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
+><TD
+WIDTH="33%"
+ALIGN="left"
+VALIGN="top"
+><A
+HREF="x237.html"
+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="34%"
+ALIGN="center"
+VALIGN="top"
+><A
+HREF="index.html"
+ACCESSKEY="H"
+>Home</A
+></TD
+><TD
+WIDTH="33%"
+ALIGN="right"
+VALIGN="top"
+><A
+HREF="x250.html"
+ACCESSKEY="N"
+>Next</A
+></TD
+></TR
+><TR
+><TD
+WIDTH="33%"
+ALIGN="left"
+VALIGN="top"
+>Symbols</TD
+><TD
+WIDTH="34%"
+ALIGN="center"
+VALIGN="top"
+><A
+HREF="c62.html"
+ACCESSKEY="U"
+>Up</A
+></TD
+><TD
+WIDTH="33%"
+ALIGN="right"
+VALIGN="top"
+>Assembler Directives</TD
+></TR
+></TABLE
+></DIV
+></BODY
+></HTML
+>
\ No newline at end of file
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/docs/manual/x250.html	Wed Jul 15 19:54:57 2015 -0600
@@ -0,0 +1,884 @@
+<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
+<HTML
+><HEAD
+><TITLE
+>Assembler Directives</TITLE
+><META
+NAME="GENERATOR"
+CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
+REL="HOME"
+TITLE="LW Tool Chain"
+HREF="index.html"><LINK
+REL="UP"
+TITLE="LWASM"
+HREF="c62.html"><LINK
+REL="PREVIOUS"
+TITLE="Numbers and Expressions"
+HREF="x242.html"><LINK
+REL="NEXT"
+TITLE="Macros"
+HREF="x551.html"></HEAD
+><BODY
+CLASS="SECTION"
+BGCOLOR="#FFFFFF"
+TEXT="#000000"
+LINK="#0000FF"
+VLINK="#840084"
+ALINK="#0000FF"
+><DIV
+CLASS="NAVHEADER"
+><TABLE
+SUMMARY="Header navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
+><TH
+COLSPAN="3"
+ALIGN="center"
+>LW Tool Chain</TH
+></TR
+><TR
+><TD
+WIDTH="10%"
+ALIGN="left"
+VALIGN="bottom"
+><A
+HREF="x242.html"
+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="80%"
+ALIGN="center"
+VALIGN="bottom"
+>Chapter 3. LWASM</TD
+><TD
+WIDTH="10%"
+ALIGN="right"
+VALIGN="bottom"
+><A
+HREF="x551.html"
+ACCESSKEY="N"
+>Next</A
+></TD
+></TR
+></TABLE
+><HR
+ALIGN="LEFT"
+WIDTH="100%"></DIV
+><DIV
+CLASS="SECTION"
+><H1
+CLASS="SECTION"
+><A
+NAME="AEN250"
+>3.6. Assembler Directives</A
+></H1
+><P
+>Various directives can be used to control the behaviour of the
+assembler or to include non-code/data in the resulting output. Those directives
+that are not described in detail in other sections of this document are
+described below.</P
+><DIV
+CLASS="SECTION"
+><H2
+CLASS="SECTION"
+><A
+NAME="AEN253"
+>3.6.1. Data Directives</A
+></H2
+><P
+></P
+><DIV
+CLASS="VARIABLELIST"
+><DL
+><DT
+>FCB <CODE
+CLASS="PARAMETER"
+>expr[,...]</CODE
+>, .DB <CODE
+CLASS="PARAMETER"
+>expr[,...]</CODE
+>, .BYTE <CODE
+CLASS="PARAMETER"
+>expr[,...]</CODE
+></DT
+><DD
+><P
+>Include one or more constant bytes (separated by commas) in the output.</P
+></DD
+><DT
+>FDB <CODE
+CLASS="PARAMETER"
+>expr[,...]</CODE
+>, .DW <CODE
+CLASS="PARAMETER"
+>expr[,...]</CODE
+>, .WORD <CODE
+CLASS="PARAMETER"
+>expr[,...]</CODE
+></DT
+><DD
+><P
+>Include one or more words (separated by commas) in the output.</P
+></DD
+><DT
+>FQB <CODE
+CLASS="PARAMETER"
+>expr[,...]</CODE
+>, .QUAD <CODE
+CLASS="PARAMETER"
+>expr[,...]</CODE
+>, .4BYTE <CODE
+CLASS="PARAMETER"
+>expr[,...]</CODE
+></DT
+><DD
+><P
+>Include one or more double words (separated by commas) in the output.</P
+></DD
+><DT
+>FCC <CODE
+CLASS="PARAMETER"
+>string</CODE
+>, .ASCII <CODE
+CLASS="PARAMETER"
+>string</CODE
+>, .STR <CODE
+CLASS="PARAMETER"
+>string</CODE
+></DT
+><DD
+><P
+>Include a string of text in the output. The first character of the operand
+is the delimiter which must appear as the last character and cannot appear
+within the string. The string is included with no modifications&#62;</P
+></DD
+><DT
+>FCN <CODE
+CLASS="PARAMETER"
+>string</CODE
+>, .ASCIZ <CODE
+CLASS="PARAMETER"
+>string</CODE
+>, .STRZ <CODE
+CLASS="PARAMETER"
+>string</CODE
+></DT
+><DD
+><P
+>Include a NUL terminated string of text in the output. The first character of
+the operand is the delimiter which must appear as the last character and
+cannot appear within the string. A NUL byte is automatically appended to
+the string.</P
+></DD
+><DT
+>FCS <CODE
+CLASS="PARAMETER"
+>string</CODE
+>, .ASCIS <CODE
+CLASS="PARAMETER"
+>string</CODE
+>, .STRS <CODE
+CLASS="PARAMETER"
+>string</CODE
+></DT
+><DD
+><P
+>Include a string of text in the output with bit 7 of the final byte set. The
+first character of the operand is the delimiter which must appear as the last
+character and cannot appear within the string.</P
+></DD
+><DT
+>ZMB <CODE
+CLASS="PARAMETER"
+>expr</CODE
+></DT
+><DD
+><P
+>Include a number of NUL bytes in the output. The number must be fully resolvable
+during pass 1 of assembly so no forward or external references are permitted.</P
+></DD
+><DT
+>ZMD <CODE
+CLASS="PARAMETER"
+>expr</CODE
+></DT
+><DD
+><P
+>Include a number of zero words in the output. The number must be fully
+resolvable during pass 1 of assembly so no forward or external references are
+permitted.</P
+></DD
+><DT
+>ZMQ <CODE
+CLASS="PARAMETER"
+>expr<CODE
+CLASS="PARAMETER"
+></CODE
+></CODE
+></DT
+><DD
+><P
+>Include a number of zero double-words in the output. The number must be fully
+resolvable during pass 1 of assembly so no forward or external references are
+permitted.</P
+></DD
+><DT
+>RMB <CODE
+CLASS="PARAMETER"
+>expr</CODE
+>, .BLKB <CODE
+CLASS="PARAMETER"
+>expr</CODE
+>, .DS <CODE
+CLASS="PARAMETER"
+>expr</CODE
+>, .RS <CODE
+CLASS="PARAMETER"
+>expr</CODE
+></DT
+><DD
+><P
+>Reserve a number of bytes in the output. The number must be fully resolvable
+during pass 1 of assembly so no forward or external references are permitted.
+The value of the bytes is undefined.</P
+></DD
+><DT
+>RMD <CODE
+CLASS="PARAMETER"
+>expr</CODE
+></DT
+><DD
+><P
+>Reserve a number of words in the output. The number must be fully
+resolvable during pass 1 of assembly so no forward or external references are
+permitted. The value of the words is undefined.</P
+></DD
+><DT
+>RMQ <CODE
+CLASS="PARAMETER"
+>expr</CODE
+></DT
+><DD
+><P
+>Reserve a number of double-words in the output. The number must be fully
+resolvable during pass 1 of assembly so no forward or external references are
+permitted. The value of the double-words is undefined.</P
+></DD
+><DT
+>INCLUDEBIN <CODE
+CLASS="PARAMETER"
+>filename</CODE
+></DT
+><DD
+><P
+>Treat the contents of <CODE
+CLASS="PARAMETER"
+>filename</CODE
+> as a string of bytes to
+be included literally at the current assembly point. This has the same effect
+as converting the file contents to a series of FCB statements and including
+those at the current assembly point.</P
+><P
+> If <CODE
+CLASS="PARAMETER"
+>filename</CODE
+> beings with a /, the file name
+will be taken as absolute.  Otherwise, the current directory will be
+searched followed by the search path in the order specified.</P
+><P
+> Please note that absolute path detection including drive letters will
+not function correctly on Windows platforms.  Non-absolute inclusion will
+work, however.</P
+></DD
+><DT
+>FILL <CODE
+CLASS="PARAMETER"
+>size</CODE
+>,<CODE
+CLASS="PARAMETER"
+>byte</CODE
+></DT
+><DD
+><P
+>Insert <CODE
+CLASS="PARAMETER"
+>size</CODE
+> bytes of <CODE
+CLASS="PARAMETER"
+>byte</CODE
+>.</P
+></DD
+></DL
+></DIV
+></DIV
+><DIV
+CLASS="SECTION"
+><H2
+CLASS="SECTION"
+><A
+NAME="AEN364"
+>3.6.2. Address Definition</A
+></H2
+><P
+>The directives in this section all control the addresses of symbols
+or the assembly process itself.</P
+><P
+></P
+><DIV
+CLASS="VARIABLELIST"
+><DL
+><DT
+>ORG <CODE
+CLASS="PARAMETER"
+>expr</CODE
+></DT
+><DD
+><P
+>Set the assembly address. The address must be fully resolvable on the
+first pass so no external or forward references are permitted. ORG is not
+permitted within sections when outputting to object files. For target formats
+that include address information (decb, hex, srec, and ihex), an ORG
+directive will re-start the address sequence within the output. When using
+the raw target format, ORG is used only to determine the addresses of symbols.</P
+></DD
+><DT
+>REORG</DT
+><DD
+><P
+>Sets the assembly address to the value it had immediately prior to the
+previous ORG statement. It is used to continue assembly after some
+specification that required an additional ORG. This directive is primarily
+intended for MACRO-80c compatibility. Consider using alternatives in
+modern code.</P
+></DD
+><DT
+><CODE
+CLASS="PARAMETER"
+>sym</CODE
+> EQU <CODE
+CLASS="PARAMETER"
+>expr</CODE
+>, <CODE
+CLASS="PARAMETER"
+>sym</CODE
+> = <CODE
+CLASS="PARAMETER"
+>expr</CODE
+></DT
+><DD
+><P
+>Define the value of <CODE
+CLASS="PARAMETER"
+>sym</CODE
+> to be <CODE
+CLASS="PARAMETER"
+>expr</CODE
+>.</P
+></DD
+><DT
+><CODE
+CLASS="PARAMETER"
+>sym</CODE
+> SET <CODE
+CLASS="PARAMETER"
+>expr</CODE
+></DT
+><DD
+><P
+>Define the value of <CODE
+CLASS="PARAMETER"
+>sym</CODE
+> to be <CODE
+CLASS="PARAMETER"
+>expr</CODE
+>.
+Unlike EQU, SET permits symbols to be defined multiple times as long as SET
+is used for all instances. Use of the symbol before the first SET statement
+that sets its value is undefined.</P
+></DD
+><DT
+>SETDP <CODE
+CLASS="PARAMETER"
+>expr</CODE
+></DT
+><DD
+><P
+>Inform the assembler that it can assume the DP register contains
+<CODE
+CLASS="PARAMETER"
+>expr</CODE
+>. This directive is only advice to the assembler
+to determine whether an address is in the direct page and has no effect
+on the contents of the DP register. The value must be fully resolved during
+the first assembly pass because it affects the sizes of subsequent instructions.</P
+><P
+>This directive has no effect in the object file target.</P
+></DD
+><DT
+>ALIGN <CODE
+CLASS="PARAMETER"
+>expr</CODE
+>[,<CODE
+CLASS="PARAMETER"
+>value</CODE
+>]</DT
+><DD
+><P
+>Force the current assembly address to be a multiple of
+<CODE
+CLASS="PARAMETER"
+>expr</CODE
+>.  If <CODE
+CLASS="PARAMETER"
+>value</CODE
+> is not
+specified, a series of NUL bytes is output to force the alignment, if
+required.  Otherwise, the low order 8 bits of <CODE
+CLASS="PARAMETER"
+>value</CODE
+>
+will be used as the fill.  The alignment value must be fully resolved on the
+first pass because it affects the addresses of subsquent instructions.
+However, <CODE
+CLASS="PARAMETER"
+>value</CODE
+> may include forward references; as
+long as it resolves to a constant for the second pass, the value will be
+accepted.</P
+><P
+>Unless <CODE
+CLASS="PARAMETER"
+>value</CODE
+> is specified as something like $12,
+this directive is not suitable for inclusion in the middle of actual code.
+The default padding value is $00 which is intended to be used within data
+blocks.  </P
+></DD
+></DL
+></DIV
+></DIV
+><DIV
+CLASS="SECTION"
+><H2
+CLASS="SECTION"
+><A
+NAME="AEN415"
+>3.6.3. Conditional Assembly</A
+></H2
+><P
+>Portions of the source code can be excluded or included based on conditions
+known at assembly time. Conditionals can be nested arbitrarily deeply. The
+directives associated with conditional assembly are described in this section.</P
+><P
+>All conditionals must be fully bracketed. That is, every conditional
+statement must eventually be followed by an ENDC at the same level of nesting.</P
+><P
+>Conditional expressions are only evaluated on the first assembly pass.
+It is not possible to game the assembly process by having a conditional
+change its value between assembly passes. Due to the underlying architecture
+of LWASM, there is no possible utility to IFP1 and IFP2, nor can they, as of LWASM 3.0, actually
+be implemented meaningfully. Thus there is not and never will
+be any equivalent of IFP1 or IFP2 as provided by other assemblers. Use of those opcodes
+will throw a warning and be ignored.</P
+><P
+>It is important to note that if a conditional does not resolve to a constant
+during the first parsing pass, an error will be thrown. This is unavoidable because the assembler
+must make a decision about which source to include and which source to exclude at this stage.
+Thus, expressions that work normally elsewhere will not work for conditions.</P
+><P
+></P
+><DIV
+CLASS="VARIABLELIST"
+><DL
+><DT
+>IFEQ <CODE
+CLASS="PARAMETER"
+>expr</CODE
+></DT
+><DD
+><P
+>If <CODE
+CLASS="PARAMETER"
+>expr</CODE
+> evaluates to zero, the conditional
+will be considered true.</P
+></DD
+><DT
+>IFNE <CODE
+CLASS="PARAMETER"
+>expr</CODE
+>, IF <CODE
+CLASS="PARAMETER"
+>expr</CODE
+></DT
+><DD
+><P
+>If <CODE
+CLASS="PARAMETER"
+>expr</CODE
+> evaluates to a non-zero value, the conditional
+will be considered true.</P
+></DD
+><DT
+>IFGT <CODE
+CLASS="PARAMETER"
+>expr</CODE
+></DT
+><DD
+><P
+>If <CODE
+CLASS="PARAMETER"
+>expr</CODE
+> evaluates to a value greater than zero, the conditional
+will be considered true.</P
+></DD
+><DT
+>IFGE <CODE
+CLASS="PARAMETER"
+>expr</CODE
+></DT
+><DD
+><P
+>If <CODE
+CLASS="PARAMETER"
+>expr</CODE
+> evaluates to a value greater than or equal to zero, the conditional
+will be considered true.</P
+></DD
+><DT
+>IFLT <CODE
+CLASS="PARAMETER"
+>expr</CODE
+></DT
+><DD
+><P
+>If <CODE
+CLASS="PARAMETER"
+>expr</CODE
+> evaluates to a value less than zero, the conditional
+will be considered true.</P
+></DD
+><DT
+>IFLE <CODE
+CLASS="PARAMETER"
+>expr</CODE
+></DT
+><DD
+><P
+>If <CODE
+CLASS="PARAMETER"
+>expr</CODE
+> evaluates to a value less than or equal to zero , the conditional
+will be considered true.</P
+></DD
+><DT
+>IFDEF <CODE
+CLASS="PARAMETER"
+>sym</CODE
+></DT
+><DD
+><P
+>If <CODE
+CLASS="PARAMETER"
+>sym</CODE
+> is defined at this point in the assembly
+process, the conditional
+will be considered true.</P
+></DD
+><DT
+>IFPRAGMA <CODE
+CLASS="PARAMETER"
+>pragma</CODE
+></DT
+><DD
+><P
+>If <CODE
+CLASS="PARAMETER"
+>pragma</CODE
+> is in effect, the condition will be considered true.</P
+></DD
+><DT
+>IFNDEF <CODE
+CLASS="PARAMETER"
+>sym</CODE
+></DT
+><DD
+><P
+>If <CODE
+CLASS="PARAMETER"
+>sym</CODE
+> is not defined at this point in the assembly
+process, the conditional
+will be considered true.</P
+></DD
+><DT
+>ELSE</DT
+><DD
+><P
+>If the preceding conditional at the same level of nesting was false, the
+statements following will be assembled. If the preceding conditional at
+the same level was true, the statements following will not be assembled.
+Note that the preceding conditional might have been another ELSE statement
+although this behaviour is not guaranteed to be supported in future versions
+of LWASM.</P
+></DD
+><DT
+>ENDC</DT
+><DD
+><P
+>This directive marks the end of a conditional construct. Every conditional
+construct must end with an ENDC directive.</P
+></DD
+></DL
+></DIV
+></DIV
+><DIV
+CLASS="SECTION"
+><H2
+CLASS="SECTION"
+><A
+NAME="AEN486"
+>3.6.4. OS9 Target Directives</A
+></H2
+><P
+>This section includes directives that apply solely to the OS9
+target.</P
+><P
+></P
+><DIV
+CLASS="VARIABLELIST"
+><DL
+><DT
+>OS9 <CODE
+CLASS="PARAMETER"
+>syscall</CODE
+></DT
+><DD
+><P
+>&#13;This directive generates a call to the specified system call. <CODE
+CLASS="PARAMETER"
+>syscall</CODE
+> may be an arbitrary expression.&#13;</P
+></DD
+><DT
+>MOD <CODE
+CLASS="PARAMETER"
+>size</CODE
+>,<CODE
+CLASS="PARAMETER"
+>name</CODE
+>,<CODE
+CLASS="PARAMETER"
+>type</CODE
+>,<CODE
+CLASS="PARAMETER"
+>flags</CODE
+>,<CODE
+CLASS="PARAMETER"
+>execoff</CODE
+>,<CODE
+CLASS="PARAMETER"
+>datasize</CODE
+></DT
+><DD
+><P
+>&#13;This tells LWASM that the beginning of the actual module is here. It will
+generate a module header based on the parameters specified.  It will also
+begin calcuating the module CRC.&#13;</P
+><P
+>&#13;The precise meaning of the various parameters is beyond the scope of this
+document since it is not a tutorial on OS9 module programming.&#13;</P
+></DD
+><DT
+>EMOD</DT
+><DD
+><P
+>&#13;This marks the end of a module and causes LWASM to emit the calculated CRC
+for the module.&#13;</P
+></DD
+></DL
+></DIV
+></DIV
+><DIV
+CLASS="SECTION"
+><H2
+CLASS="SECTION"
+><A
+NAME="AEN511"
+>3.6.5. Miscelaneous Directives</A
+></H2
+><P
+>This section includes directives that do not fit into the other
+categories.</P
+><P
+></P
+><DIV
+CLASS="VARIABLELIST"
+><DL
+><DT
+>INCLUDE <CODE
+CLASS="PARAMETER"
+>filename</CODE
+>, USE <CODE
+CLASS="PARAMETER"
+>filename</CODE
+></DT
+><DD
+><P
+> Include the contents of <CODE
+CLASS="PARAMETER"
+>filename</CODE
+> at
+this point in the assembly as though it were a part of the file currently
+being processed.  Note that if whitespace appears in the name of the file,
+you must enclose <CODE
+CLASS="PARAMETER"
+>filename</CODE
+> in quotes.</P
+><P
+>Note that the USE variation is provided only for compatibility with other
+assemblers. It is recommended to use the INCLUDE variation.</P
+><P
+>If <CODE
+CLASS="PARAMETER"
+>filename</CODE
+> begins with a &quot;/&quot;, it is
+interpreted as an absolute path. If it does not, the search path will be used
+to find the file. First, the directory containing the file that contains this
+directive. (Includes within an included file are relative to the included file,
+not the file that included it.) If the file is not found there, the include path
+is searched. If it is still not found, an error will be thrown. Note that the
+current directory as understood by your shell or operating system is not searched.</P
+></DD
+><DT
+>END <CODE
+CLASS="PARAMETER"
+>[expr]</CODE
+></DT
+><DD
+><P
+>This directive causes the assembler to stop assembling immediately as though
+it ran out of input. For the DECB target only, <CODE
+CLASS="PARAMETER"
+>expr</CODE
+>
+can be used to set the execution address of the resulting binary. For all
+other targets, specifying <CODE
+CLASS="PARAMETER"
+>expr</CODE
+> will cause an error.</P
+></DD
+><DT
+>ERROR <CODE
+CLASS="PARAMETER"
+>string</CODE
+></DT
+><DD
+><P
+>Causes a custom error message to be printed at this line. This will cause
+assembly to fail. This directive is most useful inside conditional constructs
+to cause assembly to fail if some condition that is known bad happens. Everything
+from the directive to the end of the line is considered the error message.</P
+></DD
+><DT
+>WARNING <CODE
+CLASS="PARAMETER"
+>string</CODE
+></DT
+><DD
+><P
+>Causes a custom warning message to be printed at this line. This will not cause
+assembly to fail. This directive is most useful inside conditional constructs
+or include files to alert the programmer to a deprecated feature being used
+or some other condition that may cause trouble later, but which may, in fact,
+not cause any trouble.</P
+></DD
+><DT
+>.MODULE <CODE
+CLASS="PARAMETER"
+>string</CODE
+></DT
+><DD
+><P
+>This directive is ignored for most output targets. If the output target
+supports encoding a module name into it, <CODE
+CLASS="PARAMETER"
+>string</CODE
+>
+will be used as the module name.</P
+><P
+>As of version 3.0, no supported output targets support this directive.</P
+></DD
+></DL
+></DIV
+></DIV
+></DIV
+><DIV
+CLASS="NAVFOOTER"
+><HR
+ALIGN="LEFT"
+WIDTH="100%"><TABLE
+SUMMARY="Footer navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
+><TD
+WIDTH="33%"
+ALIGN="left"
+VALIGN="top"
+><A
+HREF="x242.html"
+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="34%"
+ALIGN="center"
+VALIGN="top"
+><A
+HREF="index.html"
+ACCESSKEY="H"
+>Home</A
+></TD
+><TD
+WIDTH="33%"
+ALIGN="right"
+VALIGN="top"
+><A
+HREF="x551.html"
+ACCESSKEY="N"
+>Next</A
+></TD
+></TR
+><TR
+><TD
+WIDTH="33%"
+ALIGN="left"
+VALIGN="top"
+>Numbers and Expressions</TD
+><TD
+WIDTH="34%"
+ALIGN="center"
+VALIGN="top"
+><A
+HREF="c62.html"
+ACCESSKEY="U"
+>Up</A
+></TD
+><TD
+WIDTH="33%"
+ALIGN="right"
+VALIGN="top"
+>Macros</TD
+></TR
+></TABLE
+></DIV
+></BODY
+></HTML
+>
\ No newline at end of file
--- a/docs/manual/x531.html	Tue Jul 14 23:12:24 2015 -0600
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,234 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
-<HTML
-><HEAD
-><TITLE
->Macros</TITLE
-><META
-NAME="GENERATOR"
-CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
-REL="HOME"
-TITLE="LW Tool Chain"
-HREF="index.html"><LINK
-REL="UP"
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-REL="PREVIOUS"
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-TITLE="Structures"
-HREF="x554.html"></HEAD
-><BODY
-CLASS="SECTION"
-BGCOLOR="#FFFFFF"
-TEXT="#000000"
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-VLINK="#840084"
-ALINK="#0000FF"
-><DIV
-CLASS="NAVHEADER"
-><TABLE
-SUMMARY="Header navigation table"
-WIDTH="100%"
-BORDER="0"
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-><TR
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->LW Tool Chain</TH
-></TR
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-><TD
-WIDTH="10%"
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-VALIGN="bottom"
-><A
-HREF="x240.html"
-ACCESSKEY="P"
->Prev</A
-></TD
-><TD
-WIDTH="80%"
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->Chapter 3. LWASM</TD
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->Next</A
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-><HR
-ALIGN="LEFT"
-WIDTH="100%"></DIV
-><DIV
-CLASS="SECTION"
-><H1
-CLASS="SECTION"
-><A
-NAME="AEN531"
->3.7. Macros</A
-></H1
-><P
->LWASM is a macro assembler. A macro is simply a name that stands in for a
-series of instructions. Once a macro is defined, it is used like any other
-assembler directive. Defining a macro can be considered equivalent to adding
-additional assembler directives.</P
-><P
->Macros may accept parameters. These parameters are referenced within a
-macro by the a backslash ("\") followed by a digit 1 through 9 for the first
-through ninth parameters. They may also be referenced by enclosing the
-decimal parameter number in braces ("{num}"). The special expansion "\*"
-translates to the exact parameter string, including all parameters, passed
-to the macro. These parameter references are replaced with the verbatim text
-of the parameter passed to the macro. A reference to a non-existent
-parameter will be replaced by an empty string. Macro parameters are expanded
-everywhere on each source line. That means the parameter to a macro could be
-used as a symbol or it could even appear in a comment or could cause an
-entire source line to be commented out when the macro is expanded. </P
-><P
->Parameters passed to a macro are separated by commas and the parameter list
-is terminated by any whitespace. This means that neither a comma nor whitespace
-may be included in a macro parameter.</P
-><P
->Macro expansion is done recursively. That is, within a macro, macros are
-expanded. This can lead to infinite loops in macro expansion. If the assembler
-hangs for a long time while assembling a file that uses macros, this may be
-the reason.</P
-><P
->Each macro expansion receives its own local symbol context which is not
-inherited by any macros called by it nor is it inherited from the context
-the macro was instantiated in. That means it is possible to use local symbols
-within macros without having them collide with symbols in other macros or
-outside the macro itself. However, this also means that using a local symbol
-as a parameter to a macro, while legal, will not do what it would seem to do
-as it will result in looking up the local symbol in the macro's symbol context
-rather than the enclosing context where it came from, likely yielding either
-an undefined symbol error or bizarre assembly results.</P
-><P
->Note that there is no way to define a macro as local to a symbol context. All
-macros are part of the global macro namespace. However, macros have a separate
-namespace from symbols so it is possible to have a symbol with the same name
-as a macro.</P
-><P
->Macros are defined only during the first pass. Macro expansion also
-only occurs during the first pass. On the second pass, the macro
-definition is simply ignored. Macros must be defined before they are used.</P
-><P
->The following directives are used when defining macros.</P
-><P
-></P
-><DIV
-CLASS="VARIABLELIST"
-><DL
-><DT
-><CODE
-CLASS="PARAMETER"
->macroname</CODE
-> MACRO [NOEXPAND]</DT
-><DD
-><P
->This directive is used to being the definition of a macro called
-<CODE
-CLASS="PARAMETER"
->macroname</CODE
->. If <CODE
-CLASS="PARAMETER"
->macroname</CODE
-> already
-exists, it is considered an error. Attempting to define a macro within a
-macro is undefined. It may work and it may not so the behaviour should not
-be relied upon.</P
-><P
->If NOEXPAND is specified, the macro will not be expanded in a program
-listing. Instead, all bytes emitted by all instructions within the macro
-will appear to be emitted on the line where the macro is invoked, starting
-at the address of the line of the invokation. If the macro uses ORG or other
-directives that define symbols or change the assembly address, these things
-will also be hidden (except in the symbol table) and the output bytes will
-appear with incorrect address attribution. Thus, NOEXPAND should only be
-used for macros that do not mess with the assembly address or otherwise
-define symbols that should be visible.</P
-></DD
-><DT
->ENDM</DT
-><DD
-><P
->This directive indicates the end of the macro currently being defined. It
-causes the assembler to resume interpreting source lines as normal.</P
-></DD
-></DL
-></DIV
-></DIV
-><DIV
-CLASS="NAVFOOTER"
-><HR
-ALIGN="LEFT"
-WIDTH="100%"><TABLE
-SUMMARY="Footer navigation table"
-WIDTH="100%"
-BORDER="0"
-CELLPADDING="0"
-CELLSPACING="0"
-><TR
-><TD
-WIDTH="33%"
-ALIGN="left"
-VALIGN="top"
-><A
-HREF="x240.html"
-ACCESSKEY="P"
->Prev</A
-></TD
-><TD
-WIDTH="34%"
-ALIGN="center"
-VALIGN="top"
-><A
-HREF="index.html"
-ACCESSKEY="H"
->Home</A
-></TD
-><TD
-WIDTH="33%"
-ALIGN="right"
-VALIGN="top"
-><A
-HREF="x554.html"
-ACCESSKEY="N"
->Next</A
-></TD
-></TR
-><TR
-><TD
-WIDTH="33%"
-ALIGN="left"
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->Up</A
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\ No newline at end of file
--- a/docs/manual/x54.html	Tue Jul 14 23:12:24 2015 -0600
+++ b/docs/manual/x54.html	Wed Jul 15 19:54:57 2015 -0600
@@ -79,7 +79,7 @@
 ><P
 >LWASM supports generating a proprietary object file format which is
 described in <A
-HREF="c1002.html"
+HREF="c1063.html"
 >Chapter 6</A
 >. LWLINK is then used to link these
 object files into a final binary in any of LWLINK's supported binary
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/docs/manual/x551.html	Wed Jul 15 19:54:57 2015 -0600
@@ -0,0 +1,234 @@
+<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
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+CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
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+TITLE="LW Tool Chain"
+HREF="index.html"><LINK
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+TITLE="Structures"
+HREF="x574.html"></HEAD
+><BODY
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+BGCOLOR="#FFFFFF"
+TEXT="#000000"
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+ALINK="#0000FF"
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+SUMMARY="Header navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
+><TH
+COLSPAN="3"
+ALIGN="center"
+>LW Tool Chain</TH
+></TR
+><TR
+><TD
+WIDTH="10%"
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+VALIGN="bottom"
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+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="80%"
+ALIGN="center"
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+>Chapter 3. LWASM</TD
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+WIDTH="10%"
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+VALIGN="bottom"
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+>Next</A
+></TD
+></TR
+></TABLE
+><HR
+ALIGN="LEFT"
+WIDTH="100%"></DIV
+><DIV
+CLASS="SECTION"
+><H1
+CLASS="SECTION"
+><A
+NAME="AEN551"
+>3.7. Macros</A
+></H1
+><P
+>LWASM is a macro assembler. A macro is simply a name that stands in for a
+series of instructions. Once a macro is defined, it is used like any other
+assembler directive. Defining a macro can be considered equivalent to adding
+additional assembler directives.</P
+><P
+>Macros may accept parameters. These parameters are referenced within a
+macro by the a backslash ("\") followed by a digit 1 through 9 for the first
+through ninth parameters. They may also be referenced by enclosing the
+decimal parameter number in braces ("{num}"). The special expansion "\*"
+translates to the exact parameter string, including all parameters, passed
+to the macro. These parameter references are replaced with the verbatim text
+of the parameter passed to the macro. A reference to a non-existent
+parameter will be replaced by an empty string. Macro parameters are expanded
+everywhere on each source line. That means the parameter to a macro could be
+used as a symbol or it could even appear in a comment or could cause an
+entire source line to be commented out when the macro is expanded. </P
+><P
+>Parameters passed to a macro are separated by commas and the parameter list
+is terminated by any whitespace. This means that neither a comma nor whitespace
+may be included in a macro parameter.</P
+><P
+>Macro expansion is done recursively. That is, within a macro, macros are
+expanded. This can lead to infinite loops in macro expansion. If the assembler
+hangs for a long time while assembling a file that uses macros, this may be
+the reason.</P
+><P
+>Each macro expansion receives its own local symbol context which is not
+inherited by any macros called by it nor is it inherited from the context
+the macro was instantiated in. That means it is possible to use local symbols
+within macros without having them collide with symbols in other macros or
+outside the macro itself. However, this also means that using a local symbol
+as a parameter to a macro, while legal, will not do what it would seem to do
+as it will result in looking up the local symbol in the macro's symbol context
+rather than the enclosing context where it came from, likely yielding either
+an undefined symbol error or bizarre assembly results.</P
+><P
+>Note that there is no way to define a macro as local to a symbol context. All
+macros are part of the global macro namespace. However, macros have a separate
+namespace from symbols so it is possible to have a symbol with the same name
+as a macro.</P
+><P
+>Macros are defined only during the first pass. Macro expansion also
+only occurs during the first pass. On the second pass, the macro
+definition is simply ignored. Macros must be defined before they are used.</P
+><P
+>The following directives are used when defining macros.</P
+><P
+></P
+><DIV
+CLASS="VARIABLELIST"
+><DL
+><DT
+><CODE
+CLASS="PARAMETER"
+>macroname</CODE
+> MACRO [NOEXPAND]</DT
+><DD
+><P
+>This directive is used to being the definition of a macro called
+<CODE
+CLASS="PARAMETER"
+>macroname</CODE
+>. If <CODE
+CLASS="PARAMETER"
+>macroname</CODE
+> already
+exists, it is considered an error. Attempting to define a macro within a
+macro is undefined. It may work and it may not so the behaviour should not
+be relied upon.</P
+><P
+>If NOEXPAND is specified, the macro will not be expanded in a program
+listing. Instead, all bytes emitted by all instructions within the macro
+will appear to be emitted on the line where the macro is invoked, starting
+at the address of the line of the invokation. If the macro uses ORG or other
+directives that define symbols or change the assembly address, these things
+will also be hidden (except in the symbol table) and the output bytes will
+appear with incorrect address attribution. Thus, NOEXPAND should only be
+used for macros that do not mess with the assembly address or otherwise
+define symbols that should be visible.</P
+></DD
+><DT
+>ENDM</DT
+><DD
+><P
+>This directive indicates the end of the macro currently being defined. It
+causes the assembler to resume interpreting source lines as normal.</P
+></DD
+></DL
+></DIV
+></DIV
+><DIV
+CLASS="NAVFOOTER"
+><HR
+ALIGN="LEFT"
+WIDTH="100%"><TABLE
+SUMMARY="Footer navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
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+WIDTH="33%"
+ALIGN="left"
+VALIGN="top"
+><A
+HREF="x250.html"
+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="34%"
+ALIGN="center"
+VALIGN="top"
+><A
+HREF="index.html"
+ACCESSKEY="H"
+>Home</A
+></TD
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+WIDTH="33%"
+ALIGN="right"
+VALIGN="top"
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+HREF="x574.html"
+ACCESSKEY="N"
+>Next</A
+></TD
+></TR
+><TR
+><TD
+WIDTH="33%"
+ALIGN="left"
+VALIGN="top"
+>Assembler Directives</TD
+><TD
+WIDTH="34%"
+ALIGN="center"
+VALIGN="top"
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+HREF="c62.html"
+ACCESSKEY="U"
+>Up</A
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+><TD
+WIDTH="33%"
+ALIGN="right"
+VALIGN="top"
+>Structures</TD
+></TR
+></TABLE
+></DIV
+></BODY
+></HTML
+>
\ No newline at end of file
--- a/docs/manual/x554.html	Tue Jul 14 23:12:24 2015 -0600
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,228 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
-<HTML
-><HEAD
-><TITLE
->Structures</TITLE
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-NAME="GENERATOR"
-CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
-REL="HOME"
-TITLE="LW Tool Chain"
-HREF="index.html"><LINK
-REL="UP"
-TITLE="LWASM"
-HREF="c62.html"><LINK
-REL="PREVIOUS"
-TITLE="Macros"
-HREF="x531.html"><LINK
-REL="NEXT"
-TITLE="Object Files and Sections"
-HREF="x575.html"></HEAD
-><BODY
-CLASS="SECTION"
-BGCOLOR="#FFFFFF"
-TEXT="#000000"
-LINK="#0000FF"
-VLINK="#840084"
-ALINK="#0000FF"
-><DIV
-CLASS="NAVHEADER"
-><TABLE
-SUMMARY="Header navigation table"
-WIDTH="100%"
-BORDER="0"
-CELLPADDING="0"
-CELLSPACING="0"
-><TR
-><TH
-COLSPAN="3"
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->LW Tool Chain</TH
-></TR
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-><TD
-WIDTH="10%"
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-HREF="x531.html"
-ACCESSKEY="P"
->Prev</A
-></TD
-><TD
-WIDTH="80%"
-ALIGN="center"
-VALIGN="bottom"
->Chapter 3. LWASM</TD
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-VALIGN="bottom"
-><A
-HREF="x575.html"
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->Next</A
-></TD
-></TR
-></TABLE
-><HR
-ALIGN="LEFT"
-WIDTH="100%"></DIV
-><DIV
-CLASS="SECTION"
-><H1
-CLASS="SECTION"
-><A
-NAME="AEN554"
->3.8. Structures</A
-></H1
-><P
->&#13;Structures are used to group related data in a fixed structure. A structure
-consists a number of fields, defined in sequential order and which take up
-specified size.  The assembler does not enforce any means of access within a
-structure; it assumes that whatever you are doing, you intended to do.
-There are two pseudo ops that are used for defining structures.&#13;</P
-><P
-></P
-><DIV
-CLASS="VARIABLELIST"
-><DL
-><DT
-><CODE
-CLASS="PARAMETER"
->structname</CODE
-> STRUCT</DT
-><DD
-><P
->&#13;This directive is used to begin the definition of a structure with name
-<CODE
-CLASS="PARAMETER"
->structname</CODE
->.  Subsequent statements all form part of
-the structure definition until the end of the structure is declared.&#13;</P
-></DD
-><DT
->ENDSTRUCT, ENDS</DT
-><DD
-><P
->This directive ends the definition of the structure. ENDSTRUCT is the
-preferred form. Prior to version 3.0 of LWASM, ENDS was used to end a
-section instead of a structure.</P
-></DD
-></DL
-></DIV
-><P
->&#13;Within a structure definition, only reservation pseudo ops are permitted.
-Anything else will cause an assembly error.</P
-><P
-> Once a structure is defined, you can reserve an area of memory in the
-same structure by using the structure name as the opcode.  Structures can
-also contain fields that are themselves structures.  See the example
-below.</P
-><PRE
-CLASS="PROGRAMLISTING"
->tstruct2  STRUCT
-f1        rmb 1
-f2        rmb 1
-          ENDSTRUCT
-
-tstruct   STRUCT
-field1    rmb 2
-field2    rmb 3
-field3    tstruct2
-          ENDSTRUCT
-
-          ORG $2000
-var1      tstruct
-var2      tstruct2</PRE
-><P
->Fields are referenced using a dot (.) as a separator. To refer to the
-generic offset within a structure, use the structure name to the left of the
-dot.  If referring to a field within an actual variable, use the variable's
-symbol name to the left of the dot.</P
-><P
->You can also refer to the actual size of a structure (or a variable
-declared as a structure) using the special symbol sizeof{structname} where
-structname will be the name of the structure or the name of the
-variable.</P
-><P
->Essentially, structures are a shortcut for defining a vast number of
-symbols.  When a structure is defined, the assembler creates symbols for the
-various fields in the form structname.fieldname as well as the appropriate
-sizeof{structname} symbol.  When a variable is declared as a structure, the
-assembler does the same thing using the name of the variable.  You will see
-these symbols in the symbol table when the assembler is instructed to
-provide a listing.  For instance, the above listing will create the
-following symbols (symbol values in parentheses): tstruct2.f1 (0),
-tstruct2.f2 (1), sizeof{tstruct2} (2), tstruct.field1 (0), tstruct.field2
-(2), tstruct.field3 (5), tstruct.field3.f1 (5), tstruct.field3.f2 (6),
-sizeof{tstruct.field3} (2), sizeof{tstruct} (7), var1 {$2000}, var1.field1
-{$2000}, var1.field2 {$2002}, var1.field3 {$2005}, var1.field3.f1 {$2005},
-var1.field3.f2 {$2006}, sizeof(var1.field3} (2), sizeof{var1} (7), var2
-($2007), var2.f1 ($2007), var2.f2 ($2008), sizeof{var2} (2).  </P
-></DIV
-><DIV
-CLASS="NAVFOOTER"
-><HR
-ALIGN="LEFT"
-WIDTH="100%"><TABLE
-SUMMARY="Footer navigation table"
-WIDTH="100%"
-BORDER="0"
-CELLPADDING="0"
-CELLSPACING="0"
-><TR
-><TD
-WIDTH="33%"
-ALIGN="left"
-VALIGN="top"
-><A
-HREF="x531.html"
-ACCESSKEY="P"
->Prev</A
-></TD
-><TD
-WIDTH="34%"
-ALIGN="center"
-VALIGN="top"
-><A
-HREF="index.html"
-ACCESSKEY="H"
->Home</A
-></TD
-><TD
-WIDTH="33%"
-ALIGN="right"
-VALIGN="top"
-><A
-HREF="x575.html"
-ACCESSKEY="N"
->Next</A
-></TD
-></TR
-><TR
-><TD
-WIDTH="33%"
-ALIGN="left"
-VALIGN="top"
->Macros</TD
-><TD
-WIDTH="34%"
-ALIGN="center"
-VALIGN="top"
-><A
-HREF="c62.html"
-ACCESSKEY="U"
->Up</A
-></TD
-><TD
-WIDTH="33%"
-ALIGN="right"
-VALIGN="top"
->Object Files and Sections</TD
-></TR
-></TABLE
-></DIV
-></BODY
-></HTML
->
\ No newline at end of file
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/docs/manual/x574.html	Wed Jul 15 19:54:57 2015 -0600
@@ -0,0 +1,228 @@
+<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
+<HTML
+><HEAD
+><TITLE
+>Structures</TITLE
+><META
+NAME="GENERATOR"
+CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
+REL="HOME"
+TITLE="LW Tool Chain"
+HREF="index.html"><LINK
+REL="UP"
+TITLE="LWASM"
+HREF="c62.html"><LINK
+REL="PREVIOUS"
+TITLE="Macros"
+HREF="x551.html"><LINK
+REL="NEXT"
+TITLE="Object Files and Sections"
+HREF="x595.html"></HEAD
+><BODY
+CLASS="SECTION"
+BGCOLOR="#FFFFFF"
+TEXT="#000000"
+LINK="#0000FF"
+VLINK="#840084"
+ALINK="#0000FF"
+><DIV
+CLASS="NAVHEADER"
+><TABLE
+SUMMARY="Header navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
+><TH
+COLSPAN="3"
+ALIGN="center"
+>LW Tool Chain</TH
+></TR
+><TR
+><TD
+WIDTH="10%"
+ALIGN="left"
+VALIGN="bottom"
+><A
+HREF="x551.html"
+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="80%"
+ALIGN="center"
+VALIGN="bottom"
+>Chapter 3. LWASM</TD
+><TD
+WIDTH="10%"
+ALIGN="right"
+VALIGN="bottom"
+><A
+HREF="x595.html"
+ACCESSKEY="N"
+>Next</A
+></TD
+></TR
+></TABLE
+><HR
+ALIGN="LEFT"
+WIDTH="100%"></DIV
+><DIV
+CLASS="SECTION"
+><H1
+CLASS="SECTION"
+><A
+NAME="AEN574"
+>3.8. Structures</A
+></H1
+><P
+>&#13;Structures are used to group related data in a fixed structure. A structure
+consists a number of fields, defined in sequential order and which take up
+specified size.  The assembler does not enforce any means of access within a
+structure; it assumes that whatever you are doing, you intended to do.
+There are two pseudo ops that are used for defining structures.&#13;</P
+><P
+></P
+><DIV
+CLASS="VARIABLELIST"
+><DL
+><DT
+><CODE
+CLASS="PARAMETER"
+>structname</CODE
+> STRUCT</DT
+><DD
+><P
+>&#13;This directive is used to begin the definition of a structure with name
+<CODE
+CLASS="PARAMETER"
+>structname</CODE
+>.  Subsequent statements all form part of
+the structure definition until the end of the structure is declared.&#13;</P
+></DD
+><DT
+>ENDSTRUCT, ENDS</DT
+><DD
+><P
+>This directive ends the definition of the structure. ENDSTRUCT is the
+preferred form. Prior to version 3.0 of LWASM, ENDS was used to end a
+section instead of a structure.</P
+></DD
+></DL
+></DIV
+><P
+>&#13;Within a structure definition, only reservation pseudo ops are permitted.
+Anything else will cause an assembly error.</P
+><P
+> Once a structure is defined, you can reserve an area of memory in the
+same structure by using the structure name as the opcode.  Structures can
+also contain fields that are themselves structures.  See the example
+below.</P
+><PRE
+CLASS="PROGRAMLISTING"
+>tstruct2  STRUCT
+f1        rmb 1
+f2        rmb 1
+          ENDSTRUCT
+
+tstruct   STRUCT
+field1    rmb 2
+field2    rmb 3
+field3    tstruct2
+          ENDSTRUCT
+
+          ORG $2000
+var1      tstruct
+var2      tstruct2</PRE
+><P
+>Fields are referenced using a dot (.) as a separator. To refer to the
+generic offset within a structure, use the structure name to the left of the
+dot.  If referring to a field within an actual variable, use the variable's
+symbol name to the left of the dot.</P
+><P
+>You can also refer to the actual size of a structure (or a variable
+declared as a structure) using the special symbol sizeof{structname} where
+structname will be the name of the structure or the name of the
+variable.</P
+><P
+>Essentially, structures are a shortcut for defining a vast number of
+symbols.  When a structure is defined, the assembler creates symbols for the
+various fields in the form structname.fieldname as well as the appropriate
+sizeof{structname} symbol.  When a variable is declared as a structure, the
+assembler does the same thing using the name of the variable.  You will see
+these symbols in the symbol table when the assembler is instructed to
+provide a listing.  For instance, the above listing will create the
+following symbols (symbol values in parentheses): tstruct2.f1 (0),
+tstruct2.f2 (1), sizeof{tstruct2} (2), tstruct.field1 (0), tstruct.field2
+(2), tstruct.field3 (5), tstruct.field3.f1 (5), tstruct.field3.f2 (6),
+sizeof{tstruct.field3} (2), sizeof{tstruct} (7), var1 {$2000}, var1.field1
+{$2000}, var1.field2 {$2002}, var1.field3 {$2005}, var1.field3.f1 {$2005},
+var1.field3.f2 {$2006}, sizeof(var1.field3} (2), sizeof{var1} (7), var2
+($2007), var2.f1 ($2007), var2.f2 ($2008), sizeof{var2} (2).  </P
+></DIV
+><DIV
+CLASS="NAVFOOTER"
+><HR
+ALIGN="LEFT"
+WIDTH="100%"><TABLE
+SUMMARY="Footer navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
+><TD
+WIDTH="33%"
+ALIGN="left"
+VALIGN="top"
+><A
+HREF="x551.html"
+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="34%"
+ALIGN="center"
+VALIGN="top"
+><A
+HREF="index.html"
+ACCESSKEY="H"
+>Home</A
+></TD
+><TD
+WIDTH="33%"
+ALIGN="right"
+VALIGN="top"
+><A
+HREF="x595.html"
+ACCESSKEY="N"
+>Next</A
+></TD
+></TR
+><TR
+><TD
+WIDTH="33%"
+ALIGN="left"
+VALIGN="top"
+>Macros</TD
+><TD
+WIDTH="34%"
+ALIGN="center"
+VALIGN="top"
+><A
+HREF="c62.html"
+ACCESSKEY="U"
+>Up</A
+></TD
+><TD
+WIDTH="33%"
+ALIGN="right"
+VALIGN="top"
+>Object Files and Sections</TD
+></TR
+></TABLE
+></DIV
+></BODY
+></HTML
+>
\ No newline at end of file
--- a/docs/manual/x575.html	Tue Jul 14 23:12:24 2015 -0600
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,352 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
-<HTML
-><HEAD
-><TITLE
->Object Files and Sections</TITLE
-><META
-NAME="GENERATOR"
-CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
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-TITLE="LW Tool Chain"
-HREF="index.html"><LINK
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-TITLE="Assembler Modes and Pragmas"
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->LW Tool Chain</TH
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-WIDTH="10%"
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-VALIGN="bottom"
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-HREF="x554.html"
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->Prev</A
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-><TD
-WIDTH="80%"
-ALIGN="center"
-VALIGN="bottom"
->Chapter 3. LWASM</TD
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-WIDTH="10%"
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-VALIGN="bottom"
-><A
-HREF="x639.html"
-ACCESSKEY="N"
->Next</A
-></TD
-></TR
-></TABLE
-><HR
-ALIGN="LEFT"
-WIDTH="100%"></DIV
-><DIV
-CLASS="SECTION"
-><H1
-CLASS="SECTION"
-><A
-NAME="AEN575"
->3.9. Object Files and Sections</A
-></H1
-><P
->The object file target is very useful for large project because it allows
-multiple files to be assembled independently and then linked into the final
-binary at a later time. It allows only the small portion of the project
-that was modified to be re-assembled rather than requiring the entire set
-of source code to be available to the assembler in a single assembly process.
-This can be particularly important if there are a large number of macros,
-symbol definitions, or other metadata that uses resources at assembly time.
-By far the largest benefit, however, is keeping the source files small enough
-for a mere mortal to find things in them.</P
-><P
->With multi-file projects, there needs to be a means of resolving references to
-symbols in other source files. These are known as external references. The
-addresses of these symbols cannot be known until the linker joins all the
-object files into a single binary. This means that the assembler must be
-able to output the object code without knowing the value of the symbol. This
-places some restrictions on the code generated by the assembler. For
-example, the assembler cannot generate direct page addressing for instructions
-that reference external symbols because the address of the symbol may not
-be in the direct page. Similarly, relative branches and PC relative addressing
-cannot be used in their eight bit forms. Everything that must be resolved
-by the linker must be assembled to use the largest address size possible to
-allow the linker to fill in the correct value at link time. Note that the
-same problem applies to absolute address references as well, even those in
-the same source file, because the address is not known until link time.</P
-><P
->It is often desired in multi-file projects to have code of various types grouped
-together in the final binary generated by the linker as well. The same applies
-to data. In order for the linker to do that, the bits that are to be grouped
-must be tagged in some manner. This is where the concept of sections comes in.
-Each chunk of code or data is part of a section in the object file. Then,
-when the linker reads all the object files, it coalesces all sections of the
-same name into a single section and then considers it as a unit.</P
-><P
->The existence of sections, however, raises a problem for symbols even
-within the same source file. Thus, the assembler must treat symbols from
-different sections within the same source file in the same manner as external
-symbols. That is, it must leave them for the linker to resolve at link time,
-with all the limitations that entails.</P
-><P
->In the object file target mode, LWASM requires all source lines that
-cause bytes to be output to be inside a section. Any directives that do
-not cause any bytes to be output can appear outside of a section. This includes
-such things as EQU or RMB. Even ORG can appear outside a section. ORG, however,
-makes no sense within a section because it is the linker that determines
-the starting address of the section's code, not the assembler.</P
-><P
->All symbols defined globally in the assembly process are local to the
-source file and cannot be exported. All symbols defined within a section are
-considered local to the source file unless otherwise explicitly exported.
-Symbols referenced from external source files must be declared external,
-either explicitly or by asking the assembler to assume that all undefined
-symbols are external.</P
-><P
->It is often handy to define a number of memory addresses that will be
-used for data at run-time but which need not be included in the binary file.
-These memory addresses are not initialized until run-time, either by the
-program itself or by the program loader, depending on the operating environment.
-Such sections are often known as BSS sections. LWASM supports generating
-sections with a BSS attribute set which causes the section definition including
-symbols exported from that section and those symbols required to resolve
-references from the local file, but with no actual code in the object file.
-It is illegal for any source lines within a BSS flagged section to cause any
-bytes to be output.</P
-><P
->The following directives apply to section handling.</P
-><P
-></P
-><DIV
-CLASS="VARIABLELIST"
-><DL
-><DT
->SECTION <CODE
-CLASS="PARAMETER"
->name[,flags]</CODE
->, SECT <CODE
-CLASS="PARAMETER"
->name[,flags]</CODE
->, .AREA <CODE
-CLASS="PARAMETER"
->name[,flags]</CODE
-></DT
-><DD
-><P
->Instructs the assembler that the code following this directive is to be
-considered part of the section <CODE
-CLASS="PARAMETER"
->name</CODE
->. A section name
-may appear multiple times in which case it is as though all the code from
-all the instances of that section appeared adjacent within the source file.
-However, <CODE
-CLASS="PARAMETER"
->flags</CODE
-> may only be specified on the first
-instance of the section.</P
-><P
-><CODE
-CLASS="PARAMETER"
->flags</CODE
-> is a comma separated list of flags. If a
-flag is "bss", the section will be treated as a BSS section and no
-statements that generate output are permitted.</P
-><P
->If the flag is "constant",
-the same restrictions apply as for BSS sections.  Additionally, all symbols
-defined in a constant section define absolute values and will not be
-adjusted by the linker at link time.  Constant sections cannot define
-complex expressions for symbols; the value must be fully defined at assembly
-time.  Additionally, multiple instances of a constant section do not
-coalesce into a single addressing unit; each instance starts again at offset
-0.</P
-><P
->If the section name is "bss" or ".bss" in any combination of upper and
-lower case, the section is assumed to be a BSS section. In that case,
-the flag <CODE
-CLASS="PARAMETER"
->!bss</CODE
-> can be used to override this assumption.</P
-><P
-> If the section name is "_constants" or "_constant", in any
-combination of upper and lower case, the section is assumed to be a constant
-section.  This assumption can be overridden with the "!constant"
-flag.</P
-><P
->If assembly is already happening within a section, the section is implicitly
-ended and the new section started. This is not considered an error although
-it is recommended that all sections be explicitly closed.</P
-></DD
-><DT
->ENDSECTION, ENDSECT</DT
-><DD
-><P
->This directive ends the current section. This puts assembly outside of any
-sections until the next SECTION directive. ENDSECTION is the preferred form.
-Prior to version 3.0 of LWASM, ENDS could also be used to end a section but
-as of version 3.0, it is now an alias for ENDSTRUCT instead.</P
-></DD
-><DT
-><CODE
-CLASS="PARAMETER"
->sym</CODE
-> EXTERN, <CODE
-CLASS="PARAMETER"
->sym</CODE
-> EXTERNAL, <CODE
-CLASS="PARAMETER"
->sym</CODE
-> IMPORT</DT
-><DD
-><P
->This directive defines <CODE
-CLASS="PARAMETER"
->sym</CODE
-> as an external symbol.
-This directive may occur at any point in the source code. EXTERN definitions
-are resolved on the first pass so an EXTERN definition anywhere in the
-source file is valid for the entire file. The use of this directive is
-optional when the assembler is instructed to assume that all undefined
-symbols are external. In fact, in that mode, if the symbol is referenced
-before the EXTERN directive, an error will occur.</P
-></DD
-><DT
-><CODE
-CLASS="PARAMETER"
->sym</CODE
-> EXPORT, <CODE
-CLASS="PARAMETER"
->sym</CODE
-> .GLOBL, EXPORT <CODE
-CLASS="PARAMETER"
->sym</CODE
->, .GLOBL <CODE
-CLASS="PARAMETER"
->sym</CODE
-></DT
-><DD
-><P
->This directive defines <CODE
-CLASS="PARAMETER"
->sym</CODE
-> as an exported symbol.
-This directive may occur at any point in the source code, even before the
-definition of the exported symbol.</P
-><P
->Note that <CODE
-CLASS="PARAMETER"
->sym</CODE
-> may appear as the operand or as the
-statement's symbol. If there is a symbol on the statement, that will
-take precedence over any operand that is present.</P
-></DD
-><DT
-><CODE
-CLASS="PARAMETER"
->sym</CODE
-> EXTDEP</DT
-><DD
-><P
->This directive forces an external dependency on
-<CODE
-CLASS="PARAMETER"
->sym</CODE
->, even if it is never referenced anywhere else in
-this file.</P
-></DD
-></DL
-></DIV
-></DIV
-><DIV
-CLASS="NAVFOOTER"
-><HR
-ALIGN="LEFT"
-WIDTH="100%"><TABLE
-SUMMARY="Footer navigation table"
-WIDTH="100%"
-BORDER="0"
-CELLPADDING="0"
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->
\ No newline at end of file
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/docs/manual/x595.html	Wed Jul 15 19:54:57 2015 -0600
@@ -0,0 +1,352 @@
+<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
+<HTML
+><HEAD
+><TITLE
+>Object Files and Sections</TITLE
+><META
+NAME="GENERATOR"
+CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
+REL="HOME"
+TITLE="LW Tool Chain"
+HREF="index.html"><LINK
+REL="UP"
+TITLE="LWASM"
+HREF="c62.html"><LINK
+REL="PREVIOUS"
+TITLE="Structures"
+HREF="x574.html"><LINK
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+TITLE="Assembler Modes and Pragmas"
+HREF="x659.html"></HEAD
+><BODY
+CLASS="SECTION"
+BGCOLOR="#FFFFFF"
+TEXT="#000000"
+LINK="#0000FF"
+VLINK="#840084"
+ALINK="#0000FF"
+><DIV
+CLASS="NAVHEADER"
+><TABLE
+SUMMARY="Header navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
+><TH
+COLSPAN="3"
+ALIGN="center"
+>LW Tool Chain</TH
+></TR
+><TR
+><TD
+WIDTH="10%"
+ALIGN="left"
+VALIGN="bottom"
+><A
+HREF="x574.html"
+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="80%"
+ALIGN="center"
+VALIGN="bottom"
+>Chapter 3. LWASM</TD
+><TD
+WIDTH="10%"
+ALIGN="right"
+VALIGN="bottom"
+><A
+HREF="x659.html"
+ACCESSKEY="N"
+>Next</A
+></TD
+></TR
+></TABLE
+><HR
+ALIGN="LEFT"
+WIDTH="100%"></DIV
+><DIV
+CLASS="SECTION"
+><H1
+CLASS="SECTION"
+><A
+NAME="AEN595"
+>3.9. Object Files and Sections</A
+></H1
+><P
+>The object file target is very useful for large project because it allows
+multiple files to be assembled independently and then linked into the final
+binary at a later time. It allows only the small portion of the project
+that was modified to be re-assembled rather than requiring the entire set
+of source code to be available to the assembler in a single assembly process.
+This can be particularly important if there are a large number of macros,
+symbol definitions, or other metadata that uses resources at assembly time.
+By far the largest benefit, however, is keeping the source files small enough
+for a mere mortal to find things in them.</P
+><P
+>With multi-file projects, there needs to be a means of resolving references to
+symbols in other source files. These are known as external references. The
+addresses of these symbols cannot be known until the linker joins all the
+object files into a single binary. This means that the assembler must be
+able to output the object code without knowing the value of the symbol. This
+places some restrictions on the code generated by the assembler. For
+example, the assembler cannot generate direct page addressing for instructions
+that reference external symbols because the address of the symbol may not
+be in the direct page. Similarly, relative branches and PC relative addressing
+cannot be used in their eight bit forms. Everything that must be resolved
+by the linker must be assembled to use the largest address size possible to
+allow the linker to fill in the correct value at link time. Note that the
+same problem applies to absolute address references as well, even those in
+the same source file, because the address is not known until link time.</P
+><P
+>It is often desired in multi-file projects to have code of various types grouped
+together in the final binary generated by the linker as well. The same applies
+to data. In order for the linker to do that, the bits that are to be grouped
+must be tagged in some manner. This is where the concept of sections comes in.
+Each chunk of code or data is part of a section in the object file. Then,
+when the linker reads all the object files, it coalesces all sections of the
+same name into a single section and then considers it as a unit.</P
+><P
+>The existence of sections, however, raises a problem for symbols even
+within the same source file. Thus, the assembler must treat symbols from
+different sections within the same source file in the same manner as external
+symbols. That is, it must leave them for the linker to resolve at link time,
+with all the limitations that entails.</P
+><P
+>In the object file target mode, LWASM requires all source lines that
+cause bytes to be output to be inside a section. Any directives that do
+not cause any bytes to be output can appear outside of a section. This includes
+such things as EQU or RMB. Even ORG can appear outside a section. ORG, however,
+makes no sense within a section because it is the linker that determines
+the starting address of the section's code, not the assembler.</P
+><P
+>All symbols defined globally in the assembly process are local to the
+source file and cannot be exported. All symbols defined within a section are
+considered local to the source file unless otherwise explicitly exported.
+Symbols referenced from external source files must be declared external,
+either explicitly or by asking the assembler to assume that all undefined
+symbols are external.</P
+><P
+>It is often handy to define a number of memory addresses that will be
+used for data at run-time but which need not be included in the binary file.
+These memory addresses are not initialized until run-time, either by the
+program itself or by the program loader, depending on the operating environment.
+Such sections are often known as BSS sections. LWASM supports generating
+sections with a BSS attribute set which causes the section definition including
+symbols exported from that section and those symbols required to resolve
+references from the local file, but with no actual code in the object file.
+It is illegal for any source lines within a BSS flagged section to cause any
+bytes to be output.</P
+><P
+>The following directives apply to section handling.</P
+><P
+></P
+><DIV
+CLASS="VARIABLELIST"
+><DL
+><DT
+>SECTION <CODE
+CLASS="PARAMETER"
+>name[,flags]</CODE
+>, SECT <CODE
+CLASS="PARAMETER"
+>name[,flags]</CODE
+>, .AREA <CODE
+CLASS="PARAMETER"
+>name[,flags]</CODE
+></DT
+><DD
+><P
+>Instructs the assembler that the code following this directive is to be
+considered part of the section <CODE
+CLASS="PARAMETER"
+>name</CODE
+>. A section name
+may appear multiple times in which case it is as though all the code from
+all the instances of that section appeared adjacent within the source file.
+However, <CODE
+CLASS="PARAMETER"
+>flags</CODE
+> may only be specified on the first
+instance of the section.</P
+><P
+><CODE
+CLASS="PARAMETER"
+>flags</CODE
+> is a comma separated list of flags. If a
+flag is "bss", the section will be treated as a BSS section and no
+statements that generate output are permitted.</P
+><P
+>If the flag is "constant",
+the same restrictions apply as for BSS sections.  Additionally, all symbols
+defined in a constant section define absolute values and will not be
+adjusted by the linker at link time.  Constant sections cannot define
+complex expressions for symbols; the value must be fully defined at assembly
+time.  Additionally, multiple instances of a constant section do not
+coalesce into a single addressing unit; each instance starts again at offset
+0.</P
+><P
+>If the section name is "bss" or ".bss" in any combination of upper and
+lower case, the section is assumed to be a BSS section. In that case,
+the flag <CODE
+CLASS="PARAMETER"
+>!bss</CODE
+> can be used to override this assumption.</P
+><P
+> If the section name is "_constants" or "_constant", in any
+combination of upper and lower case, the section is assumed to be a constant
+section.  This assumption can be overridden with the "!constant"
+flag.</P
+><P
+>If assembly is already happening within a section, the section is implicitly
+ended and the new section started. This is not considered an error although
+it is recommended that all sections be explicitly closed.</P
+></DD
+><DT
+>ENDSECTION, ENDSECT</DT
+><DD
+><P
+>This directive ends the current section. This puts assembly outside of any
+sections until the next SECTION directive. ENDSECTION is the preferred form.
+Prior to version 3.0 of LWASM, ENDS could also be used to end a section but
+as of version 3.0, it is now an alias for ENDSTRUCT instead.</P
+></DD
+><DT
+><CODE
+CLASS="PARAMETER"
+>sym</CODE
+> EXTERN, <CODE
+CLASS="PARAMETER"
+>sym</CODE
+> EXTERNAL, <CODE
+CLASS="PARAMETER"
+>sym</CODE
+> IMPORT</DT
+><DD
+><P
+>This directive defines <CODE
+CLASS="PARAMETER"
+>sym</CODE
+> as an external symbol.
+This directive may occur at any point in the source code. EXTERN definitions
+are resolved on the first pass so an EXTERN definition anywhere in the
+source file is valid for the entire file. The use of this directive is
+optional when the assembler is instructed to assume that all undefined
+symbols are external. In fact, in that mode, if the symbol is referenced
+before the EXTERN directive, an error will occur.</P
+></DD
+><DT
+><CODE
+CLASS="PARAMETER"
+>sym</CODE
+> EXPORT, <CODE
+CLASS="PARAMETER"
+>sym</CODE
+> .GLOBL, EXPORT <CODE
+CLASS="PARAMETER"
+>sym</CODE
+>, .GLOBL <CODE
+CLASS="PARAMETER"
+>sym</CODE
+></DT
+><DD
+><P
+>This directive defines <CODE
+CLASS="PARAMETER"
+>sym</CODE
+> as an exported symbol.
+This directive may occur at any point in the source code, even before the
+definition of the exported symbol.</P
+><P
+>Note that <CODE
+CLASS="PARAMETER"
+>sym</CODE
+> may appear as the operand or as the
+statement's symbol. If there is a symbol on the statement, that will
+take precedence over any operand that is present.</P
+></DD
+><DT
+><CODE
+CLASS="PARAMETER"
+>sym</CODE
+> EXTDEP</DT
+><DD
+><P
+>This directive forces an external dependency on
+<CODE
+CLASS="PARAMETER"
+>sym</CODE
+>, even if it is never referenced anywhere else in
+this file.</P
+></DD
+></DL
+></DIV
+></DIV
+><DIV
+CLASS="NAVFOOTER"
+><HR
+ALIGN="LEFT"
+WIDTH="100%"><TABLE
+SUMMARY="Footer navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
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+WIDTH="33%"
+ALIGN="left"
+VALIGN="top"
+><A
+HREF="x574.html"
+ACCESSKEY="P"
+>Prev</A
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+><TD
+WIDTH="34%"
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+VALIGN="top"
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+HREF="index.html"
+ACCESSKEY="H"
+>Home</A
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+WIDTH="33%"
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+VALIGN="top"
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+HREF="x659.html"
+ACCESSKEY="N"
+>Next</A
+></TD
+></TR
+><TR
+><TD
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+ACCESSKEY="U"
+>Up</A
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+VALIGN="top"
+>Assembler Modes and Pragmas</TD
+></TR
+></TABLE
+></DIV
+></BODY
+></HTML
+>
\ No newline at end of file
--- a/docs/manual/x639.html	Tue Jul 14 23:12:24 2015 -0600
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,458 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
-<HTML
-><HEAD
-><TITLE
->Assembler Modes and Pragmas</TITLE
-><META
-NAME="GENERATOR"
-CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
-REL="HOME"
-TITLE="LW Tool Chain"
-HREF="index.html"><LINK
-REL="UP"
-TITLE="LWASM"
-HREF="c62.html"><LINK
-REL="PREVIOUS"
-TITLE="Object Files and Sections"
-HREF="x575.html"><LINK
-REL="NEXT"
-TITLE="LWLINK"
-HREF="c745.html"></HEAD
-><BODY
-CLASS="SECTION"
-BGCOLOR="#FFFFFF"
-TEXT="#000000"
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->LW Tool Chain</TH
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-HREF="x575.html"
-ACCESSKEY="P"
->Prev</A
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-><TD
-WIDTH="80%"
-ALIGN="center"
-VALIGN="bottom"
->Chapter 3. LWASM</TD
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-WIDTH="10%"
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-VALIGN="bottom"
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-HREF="c745.html"
-ACCESSKEY="N"
->Next</A
-></TD
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-></TABLE
-><HR
-ALIGN="LEFT"
-WIDTH="100%"></DIV
-><DIV
-CLASS="SECTION"
-><H1
-CLASS="SECTION"
-><A
-NAME="AEN639"
->3.10. Assembler Modes and Pragmas</A
-></H1
-><P
->There are a number of options that affect the way assembly is performed.
-Some of these options can only be specified on the command line because
-they determine something absolute about the assembly process. These include
-such things as the output target. Other things may be switchable during
-the assembly process. These are known as pragmas and are, by definition,
-not portable between assemblers.</P
-><P
->LWASM supports a number of pragmas that affect code generation or
-otherwise affect the behaviour of the assembler. These may be specified by
-way of a command line option or by assembler directives. The directives
-are as follows.</P
-><P
-></P
-><DIV
-CLASS="VARIABLELIST"
-><DL
-><DT
->PRAGMA <CODE
-CLASS="PARAMETER"
->pragma[,...]</CODE
-></DT
-><DD
-><P
->Specifies that the assembler should bring into force all <CODE
-CLASS="PARAMETER"
->pragma</CODE
->s
-specified. Any unrecognized pragma will cause an assembly error. The new
-pragmas will take effect immediately. This directive should be used when
-the program will assemble incorrectly if the pragma is ignored or not supported.</P
-></DD
-><DT
->*PRAGMA <CODE
-CLASS="PARAMETER"
->pragma[,...]</CODE
-></DT
-><DD
-><P
->This is identical to the PRAGMA directive except no error will occur with
-unrecognized or unsupported pragmas. This directive, by virtue of starting
-with a comment character, will also be ignored by assemblers that do not
-support this directive. Use this variation if the pragma is not required
-for correct functioning of the code.</P
-></DD
-><DT
->*PRAGMAPUSH <CODE
-CLASS="PARAMETER"
->pragma[,...]</CODE
-></DT
-><DD
-><P
->This directive saves the current state of the specified pragma(s) for later retrieval. See discussion below for more information.</P
-><P
->This directive will not throw any errors for any reason.</P
-></DD
-><DT
->*PRAGMAPOP <CODE
-CLASS="PARAMETER"
->pragma[,...]</CODE
-></DT
-><DD
-><P
->This directive restores the previously saved state of the specified pragma(s). See discussion below for more information.</P
-><P
->This directive will not throw any errors for any reason.</P
-></DD
-></DL
-></DIV
-><P
->Each pragma supported has a positive version and a negative version.
-The positive version enables the pragma while the negative version disables
-it.  The negatitve version is simply the positive version with "no" prefixed
-to it.  For instance, "pragma" vs.  "nopragma".  When only one version is
-listed below, its opposite can be obtained by prepending "no" if it is not
-present or removing "no" from the beginning if it is present.</P
-><P
->Pragmas are not case sensitive.</P
-><P
-></P
-><DIV
-CLASS="VARIABLELIST"
-><DL
-><DT
->6800compat</DT
-><DD
-><P
->When in force, this pragma enables recognition of various
-compatibility instructions useful when assembling 6800 code.  These
-compatibility instructions are assembled into equivalent 6809 instructions.
-This mode also includes several analogous instructions which are not
-strictly 6800 instructions but allow the similar style to be applied to 6809
-specific features.</P
-><P
->Technically, a compliant 6809 assembler must recognize these
-instructions by default since Motorola advertised the 6809 as being source
-compatible with the 6800.  However, most source code does not require this
-compatibility and LWASM itself did not support these instructions prior to
-version 4.11 so this mode is disabled by default.</P
-></DD
-><DT
->index0tonone</DT
-><DD
-><P
->When in force, this pragma enables an optimization affecting indexed addressing
-modes. When the offset expression in an indexed mode evaluates to zero but is
-not explicity written as 0, this will replace the operand with the equivalent
-no offset mode, thus creating slightly faster code. Because of the advantages
-of this optimization, it is enabled by default.</P
-></DD
-><DT
->cescapes</DT
-><DD
-><P
->This pragma will cause strings in the FCC, FCS, and FCN pseudo operations to
-have C-style escape sequences interpreted. The one departure from the official
-spec is that unrecognized escape sequences will return either the character
-immediately following the backslash or some undefined value. Do not rely
-on the behaviour of undefined escape sequences.</P
-></DD
-><DT
->importundefexport</DT
-><DD
-><P
->This pragma is only valid for targets that support external references. When
-in force, it will cause the EXPORT directive to act as IMPORT if the symbol
-to be exported is not defined.  This is provided for compatibility with the
-output of gcc6809 and should not be used in hand written code.  Because of
-the confusion this pragma can cause, it is disabled by default.</P
-></DD
-><DT
->undefextern</DT
-><DD
-><P
->This pragma is only valid for targets that support external references. When in
-force, if the assembler sees an undefined symbol on the second pass, it will
-automatically define it as an external symbol. This automatic definition will
-apply for the remainder of the assembly process, even if the pragma is
-subsequently turned off. Because this behaviour would be potentially surprising,
-this pragma defaults to off.</P
-><P
->The primary use for this pragma is for projects that share a large number of
-symbols between source files. In such cases, it is impractical to enumerate
-all the external references in every source file. This allows the assembler
-and linker to do the heavy lifting while not preventing a particular source
-module from defining a local symbol of the same name as an external symbol
-if it does not need the external symbol. (This pragma will not cause an
-automatic external definition if there is already a locally defined symbol.)</P
-><P
->This pragma will often be specified on the command line for large projects.
-However, depending on the specific dynamics of the project, it may be sufficient
-for one or two files to use this pragma internally.</P
-></DD
-><DT
->export</DT
-><DD
-><P
->This pragma causes all symbols to be added to the export list
-automatically.  This is useful when a large number of symbols need to be
-exported but you do not wish to include an EXPORT directive for all of them.
-This is often useful on the command line but might be useful even inline
-with the PRAGMA directive if a large number of symbols in a row are to be
-exported.</P
-></DD
-><DT
->dollarlocal</DT
-><DD
-><P
->When set, a "$" in a symbol makes it local. When not set, "$" does not
-cause a symbol to be local.  It is set by default except when using the OS9
-target.</P
-></DD
-><DT
->dollarnotlocal</DT
-><DD
-><P
-> This is the same as the "dollarlocal" pragma except its sense is
-reversed.  That is, "dollarlocal" and "nodollarnotlocal" are equivalent and
-"nodollarlocal" and "dollarnotlocal" are equivalent.  </P
-></DD
-><DT
->pcaspcr</DT
-><DD
-><P
-> Normally, LWASM makes a distinction between PC and PCR in program
-counter relative addressing. In particular, the use of PC means an absolute
-offset from PC while PCR causes the assembler to calculate the offset to the
-specified operand and use that as the offset from PC. By setting this
-pragma, you can have PC treated the same as PCR. </P
-></DD
-><DT
->shadow</DT
-><DD
-><P
->When this pragma is in effect, it becomes possible to define a macro
-that matches an internal operation code. Thus, it makes it possible to
-redefine either CPU instructions or pseudo operations. Because this feature
-is of dubious utility, it is disabled by default.</P
-></DD
-><DT
->nolist</DT
-><DD
-><P
->Lines where this pragma is in effect will not appear in the assembly
-listing.  Also, any symbols defined under this pragma will not show up in
-the symbol list.  This is most useful in include files to avoid spamming the
-assembly listing with dozens, hundreds, or thousands of irrelevant
-symbols.</P
-></DD
-><DT
->autobranchlength</DT
-><DD
-><P
->One of the perennial annoyances for 6809 programmers is that the
-mneumonics for the short and long branch instructions are different (bxx vs.
-lbxx), which is at odds with the rest of the instruction set.  This pragma
-is a solution to those annoying byte overflow errors that short branch
-instructions tend to aquire.</P
-><P
->When this pragma is in effect, which is not the default, whenever any
-relative branch instruction is used, its size will be automatically
-determined based on the actual distance to the destination.  In other words,
-one can write code with long or short branches everywhere and the assembler
-will choose a size for the branch.</P
-><P
->Also, while this pragma is in effect, the &#62; and &#60; symbols can be used
-to force the branch size, analogous to their use for other instructions with
-&#60; forcing 8 bit offsets and &#62; forcing 16 bit offets.</P
-><P
->Because this pragma leads to source that is incompatible with other
-assemblers, it is strongly recommended that it be invoked using the PRAGMA
-directive within the source code rather than on the command line or via the
-*PRAGMA directive.  This way, an error will be raised if someone tries to
-assemble the code under a different assembler.</P
-></DD
-><DT
->nosymbolcase, symbolnocase</DT
-><DD
-><P
->Any symbol defined while this pragma is in force will be treated as
-case insensitive, regardless whether the pragma is in force when the symbol
-is referenced.</P
-><P
->It is important to note that this pragma will not work as expected in
-all cases when using the object file assembly target.  It is intended for
-use only when the assembler will be producing the final binary.</P
-></DD
-><DT
->condundefzero</DT
-><DD
-><P
->This pragma will cause the assembler to change the way it handles
-symbols in conditional expressions.  Ordinarily, any symbol that is not
-defined prior to the conditional will throw an undefined symbol error.  With
-this pragma in effect, symbols that are not yet defined at the point the
-conditional is encountered will be treated as zero.</P
-><P
->This is not the default because it encourages poor code design. One
-should use the "IFDEF" or "IFNDEF" conditionals to test for the presence of
-a symbol.</P
-><P
->It is important to note that if a symbol is defined but it does not
-yet evaluate to a constant value at the point where the conditional appears,
-the assembler will still complain about a non constant condition.</P
-></DD
-><DT
->forwardrefmax</DT
-><DD
-><P
->This pragma will disable forward reference optimization completely.
-Ordinarily, LWASM will attempt to select the shortest possible addressing
-mode for forward references.  However, in many source files, especially
-those not using the PCR relative addressing modes, this optimization is
-pointless since the assembler will almost certainly settle on a 16 bit
-offset or address.  If all variables in the direct page are defined before
-the main body of the code, the benefit of forward reference optimization
-almost certainly vanishes completely.  However, the cost of doing that
-optimization remains and can result in a very long assembly time.</P
-><P
->Enabling this pragma will cause all forward references to use the
-maximum offset or address size, much the same has EDTASM and other pure
-two pass assemblers do. The side effect is that all line lengths and
-symbol values are fully resolved after the initial parsing pass and the
-amount of work to resolve everything becomes almost nil.</P
-><P
->While this pragma can be applied selectively to sections of source
-code (use *PRAGMA if doing so and compatibility with other assemblers
-is desired), it is likely more useful when provided as a command line
-pragma.</P
-><P
->It should be noted that the presence or absence of this pragma
-will not change the correctness of the generated code unless cycle counts
-or byte counts are critical (which they usually are not). It also will
-not override the operand size override prefixes (&lt; and &gt;). It only
-applies when the assembler is left to guess what the operand size is.</P
-></DD
-></DL
-></DIV
-><P
->As a convenience, each input file has a pragma state stack. This
-allows, through the use of *PRAGMAPUSH and *PRAGMAPOP, a file to change a
-pragma state and then restore it to the precise state it had previously.
-If, at the end of an input file, all pragma states have not been popped,
-they will be removed from the stack.  Thus, it is critical to employ
-*PRAGMAPOP correctly. Because each input file has its own pragma stack,
-using *PRAGMAPUSH in one file and *PRAGMAPOP in another file will not
-work.</P
-><P
->Pragma stacks are more useful in include files, in particular in
-conjunction with the nolist pragma.  One can push the state of the nolist
-pragma, engage the nolist pragma, and then pop the state of the nolist
-pragma at the end of the include file.  This will cause the entire include
-file to operate under the nolist pragma.  However, if the file is included
-while nolist is already engaged, it will not undo that state.</P
-></DIV
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+><DIV
+CLASS="SECTION"
+><H1
+CLASS="SECTION"
+><A
+NAME="AEN659"
+>3.10. Assembler Modes and Pragmas</A
+></H1
+><P
+>There are a number of options that affect the way assembly is performed.
+Some of these options can only be specified on the command line because
+they determine something absolute about the assembly process. These include
+such things as the output target. Other things may be switchable during
+the assembly process. These are known as pragmas and are, by definition,
+not portable between assemblers.</P
+><P
+>LWASM supports a number of pragmas that affect code generation or
+otherwise affect the behaviour of the assembler. These may be specified by
+way of a command line option or by assembler directives. The directives
+are as follows.</P
+><P
+></P
+><DIV
+CLASS="VARIABLELIST"
+><DL
+><DT
+>PRAGMA <CODE
+CLASS="PARAMETER"
+>pragma[,...]</CODE
+></DT
+><DD
+><P
+>Specifies that the assembler should bring into force all <CODE
+CLASS="PARAMETER"
+>pragma</CODE
+>s
+specified. Any unrecognized pragma will cause an assembly error. The new
+pragmas will take effect immediately. This directive should be used when
+the program will assemble incorrectly if the pragma is ignored or not supported.</P
+></DD
+><DT
+>*PRAGMA <CODE
+CLASS="PARAMETER"
+>pragma[,...]</CODE
+></DT
+><DD
+><P
+>This is identical to the PRAGMA directive except no error will occur with
+unrecognized or unsupported pragmas. This directive, by virtue of starting
+with a comment character, will also be ignored by assemblers that do not
+support this directive. Use this variation if the pragma is not required
+for correct functioning of the code.</P
+></DD
+><DT
+>*PRAGMAPUSH <CODE
+CLASS="PARAMETER"
+>pragma[,...]</CODE
+></DT
+><DD
+><P
+>This directive saves the current state of the specified pragma(s) for later retrieval. See discussion below for more information.</P
+><P
+>This directive will not throw any errors for any reason.</P
+></DD
+><DT
+>*PRAGMAPOP <CODE
+CLASS="PARAMETER"
+>pragma[,...]</CODE
+></DT
+><DD
+><P
+>This directive restores the previously saved state of the specified pragma(s). See discussion below for more information.</P
+><P
+>This directive will not throw any errors for any reason.</P
+></DD
+></DL
+></DIV
+><P
+>Each pragma supported has a positive version and a negative version.
+The positive version enables the pragma while the negative version disables
+it.  The negatitve version is simply the positive version with "no" prefixed
+to it.  For instance, "pragma" vs.  "nopragma".  When only one version is
+listed below, its opposite can be obtained by prepending "no" if it is not
+present or removing "no" from the beginning if it is present.</P
+><P
+>Pragmas are not case sensitive.</P
+><P
+></P
+><DIV
+CLASS="VARIABLELIST"
+><DL
+><DT
+>6800compat</DT
+><DD
+><P
+>When in force, this pragma enables recognition of various
+compatibility instructions useful when assembling 6800 code.  These
+compatibility instructions are assembled into equivalent 6809 instructions.
+This mode also includes several analogous instructions which are not
+strictly 6800 instructions but allow the similar style to be applied to 6809
+specific features.</P
+><P
+>Technically, a compliant 6809 assembler must recognize these
+instructions by default since Motorola advertised the 6809 as being source
+compatible with the 6800.  However, most source code does not require this
+compatibility and LWASM itself did not support these instructions prior to
+version 4.11 so this mode is disabled by default.</P
+></DD
+><DT
+>6809</DT
+><DD
+><P
+>This pragma allows you to mark a section of code as 6809-only. In ths mode,
+the assembler will throw an error if any 6309 instructions are used.</P
+></DD
+><DT
+>6309</DT
+><DD
+><P
+>This pragma enables the use of 6309 instructions and disables any 6809 specific
+instructions. It also changes the cycle count listing output (if selected)
+to display 6309 timings.</P
+></DD
+><DT
+>6809conv, 6309conv</DT
+><DD
+><P
+>These pragmas enable convenience instructions extending the 6809 and 6309
+instruction sets respectively. For more information, see
+<A
+HREF="x795.html"
+>Section 3.11</A
+>.</P
+></DD
+><DT
+>index0tonone</DT
+><DD
+><P
+>When in force, this pragma enables an optimization affecting indexed addressing
+modes. When the offset expression in an indexed mode evaluates to zero but is
+not explicity written as 0, this will replace the operand with the equivalent
+no offset mode, thus creating slightly faster code. Because of the advantages
+of this optimization, it is enabled by default.</P
+></DD
+><DT
+>cescapes</DT
+><DD
+><P
+>This pragma will cause strings in the FCC, FCS, and FCN pseudo operations to
+have C-style escape sequences interpreted. The one departure from the official
+spec is that unrecognized escape sequences will return either the character
+immediately following the backslash or some undefined value. Do not rely
+on the behaviour of undefined escape sequences.</P
+></DD
+><DT
+>importundefexport</DT
+><DD
+><P
+>This pragma is only valid for targets that support external references. When
+in force, it will cause the EXPORT directive to act as IMPORT if the symbol
+to be exported is not defined.  This is provided for compatibility with the
+output of gcc6809 and should not be used in hand written code.  Because of
+the confusion this pragma can cause, it is disabled by default.</P
+></DD
+><DT
+>undefextern</DT
+><DD
+><P
+>This pragma is only valid for targets that support external references. When in
+force, if the assembler sees an undefined symbol on the second pass, it will
+automatically define it as an external symbol. This automatic definition will
+apply for the remainder of the assembly process, even if the pragma is
+subsequently turned off. Because this behaviour would be potentially surprising,
+this pragma defaults to off.</P
+><P
+>The primary use for this pragma is for projects that share a large number of
+symbols between source files. In such cases, it is impractical to enumerate
+all the external references in every source file. This allows the assembler
+and linker to do the heavy lifting while not preventing a particular source
+module from defining a local symbol of the same name as an external symbol
+if it does not need the external symbol. (This pragma will not cause an
+automatic external definition if there is already a locally defined symbol.)</P
+><P
+>This pragma will often be specified on the command line for large projects.
+However, depending on the specific dynamics of the project, it may be sufficient
+for one or two files to use this pragma internally.</P
+></DD
+><DT
+>export</DT
+><DD
+><P
+>This pragma causes all symbols to be added to the export list
+automatically.  This is useful when a large number of symbols need to be
+exported but you do not wish to include an EXPORT directive for all of them.
+This is often useful on the command line but might be useful even inline
+with the PRAGMA directive if a large number of symbols in a row are to be
+exported.</P
+></DD
+><DT
+>dollarlocal</DT
+><DD
+><P
+>When set, a "$" in a symbol makes it local. When not set, "$" does not
+cause a symbol to be local.  It is set by default except when using the OS9
+target.</P
+></DD
+><DT
+>dollarnotlocal</DT
+><DD
+><P
+> This is the same as the "dollarlocal" pragma except its sense is
+reversed.  That is, "dollarlocal" and "nodollarnotlocal" are equivalent and
+"nodollarlocal" and "dollarnotlocal" are equivalent.  </P
+></DD
+><DT
+>pcaspcr</DT
+><DD
+><P
+> Normally, LWASM makes a distinction between PC and PCR in program
+counter relative addressing. In particular, the use of PC means an absolute
+offset from PC while PCR causes the assembler to calculate the offset to the
+specified operand and use that as the offset from PC. By setting this
+pragma, you can have PC treated the same as PCR. </P
+></DD
+><DT
+>shadow</DT
+><DD
+><P
+>When this pragma is in effect, it becomes possible to define a macro
+that matches an internal operation code. Thus, it makes it possible to
+redefine either CPU instructions or pseudo operations. Because this feature
+is of dubious utility, it is disabled by default.</P
+></DD
+><DT
+>nolist</DT
+><DD
+><P
+>Lines where this pragma is in effect will not appear in the assembly
+listing.  Also, any symbols defined under this pragma will not show up in
+the symbol list.  This is most useful in include files to avoid spamming the
+assembly listing with dozens, hundreds, or thousands of irrelevant
+symbols.</P
+></DD
+><DT
+>autobranchlength</DT
+><DD
+><P
+>One of the perennial annoyances for 6809 programmers is that the
+mneumonics for the short and long branch instructions are different (bxx vs.
+lbxx), which is at odds with the rest of the instruction set.  This pragma
+is a solution to those annoying byte overflow errors that short branch
+instructions tend to aquire.</P
+><P
+>When this pragma is in effect, which is not the default, whenever any
+relative branch instruction is used, its size will be automatically
+determined based on the actual distance to the destination.  In other words,
+one can write code with long or short branches everywhere and the assembler
+will choose a size for the branch.</P
+><P
+>Also, while this pragma is in effect, the &#62; and &#60; symbols can be used
+to force the branch size, analogous to their use for other instructions with
+&#60; forcing 8 bit offsets and &#62; forcing 16 bit offets.</P
+><P
+>Because this pragma leads to source that is incompatible with other
+assemblers, it is strongly recommended that it be invoked using the PRAGMA
+directive within the source code rather than on the command line or via the
+*PRAGMA directive.  This way, an error will be raised if someone tries to
+assemble the code under a different assembler.</P
+></DD
+><DT
+>nosymbolcase, symbolnocase</DT
+><DD
+><P
+>Any symbol defined while this pragma is in force will be treated as
+case insensitive, regardless whether the pragma is in force when the symbol
+is referenced.</P
+><P
+>It is important to note that this pragma will not work as expected in
+all cases when using the object file assembly target.  It is intended for
+use only when the assembler will be producing the final binary.</P
+></DD
+><DT
+>condundefzero</DT
+><DD
+><P
+>This pragma will cause the assembler to change the way it handles
+symbols in conditional expressions.  Ordinarily, any symbol that is not
+defined prior to the conditional will throw an undefined symbol error.  With
+this pragma in effect, symbols that are not yet defined at the point the
+conditional is encountered will be treated as zero.</P
+><P
+>This is not the default because it encourages poor code design. One
+should use the "IFDEF" or "IFNDEF" conditionals to test for the presence of
+a symbol.</P
+><P
+>It is important to note that if a symbol is defined but it does not
+yet evaluate to a constant value at the point where the conditional appears,
+the assembler will still complain about a non constant condition.</P
+></DD
+><DT
+>forwardrefmax</DT
+><DD
+><P
+>This pragma will disable forward reference optimization completely.
+Ordinarily, LWASM will attempt to select the shortest possible addressing
+mode for forward references.  However, in many source files, especially
+those not using the PCR relative addressing modes, this optimization is
+pointless since the assembler will almost certainly settle on a 16 bit
+offset or address.  If all variables in the direct page are defined before
+the main body of the code, the benefit of forward reference optimization
+almost certainly vanishes completely.  However, the cost of doing that
+optimization remains and can result in a very long assembly time.</P
+><P
+>Enabling this pragma will cause all forward references to use the
+maximum offset or address size, much the same has EDTASM and other pure
+two pass assemblers do. The side effect is that all line lengths and
+symbol values are fully resolved after the initial parsing pass and the
+amount of work to resolve everything becomes almost nil.</P
+><P
+>While this pragma can be applied selectively to sections of source
+code (use *PRAGMA if doing so and compatibility with other assemblers
+is desired), it is likely more useful when provided as a command line
+pragma.</P
+><P
+>It should be noted that the presence or absence of this pragma
+will not change the correctness of the generated code unless cycle counts
+or byte counts are critical (which they usually are not). It also will
+not override the operand size override prefixes (&lt; and &gt;). It only
+applies when the assembler is left to guess what the operand size is.</P
+></DD
+><DT
+>qrts</DT
+><DD
+><P
+>&#13;Enables the use of the ?RTS branch target. ?RTS is implemented to maintain
+compatibility with the MACRO-80c assembler.  It works by searching backward
+in the code for an RTS instruction.  If none is found, it inverts the branch
+logic and inserts an RTS following the branch instruction.  Below you can
+see how a BMI (2B xx) has been assembled as a BPL *+1 (2A 01) to skip over an
+inserted RTS (39).</P
+><PRE
+CLASS="PROGRAMLISTING"
+>1D1E 7D1D1D            TST   WHICH1
+1D21 2A0139            BMI   ?RTS
+1D24 BD1D65            JSR   INV</PRE
+></DD
+><DT
+>m80ext</DT
+><DD
+><P
+>&#13;This pragma (along with pragma qrts) enables some uncommon behaviors to
+accomodate The Micro Works MACRO-80c assembler from 1982.  This assembler
+was used by a number of notable TRS-80 Color Computer applications and the
+goal of this pragma is to allow them to build identical binaries from
+unmodified, vintage source code.</P
+><P
+>&#13;In m80ext mode, the handling of the "END" pseudo-op changes when used inside
+an include file.  Instead of terminating all assembly, it merely stops
+processing of the current include file (this behavior matches the original
+Motorola 6809 assembler).  In addition, loading an ASCII value with a single
+quote (e.g., LDA #'N) is extended to 16-bit registers (e.g., LDD #'NO).
+LWASM normally supports this via double quote and that is the proper use in
+modern code.  Finally, the FCC pseudo-op is extended to handle FCB-like
+behavior after the closing delimiter:</P
+><PRE
+CLASS="PROGRAMLISTING"
+>                       FCC "Greetings from 1982",13,0</PRE
+></DD
+><DT
+>testmode</DT
+><DD
+><P
+>&#13;This pragma is intended for internal testing purposes. In testmode, the
+assembler searches for a specially-formatted comment starting with a
+semicolon followed by a period.  Immediately afterward are a list of hex
+bytes that the assembler is expected to generate.  Likewise, if the
+assembler is expected to throw an error or warning on a given line, you can
+check by specifying "E:" followed by the error number.  In this case the
+error is ignored and the assembler continues ignoring the line in question.&#13;</P
+><PRE
+CLASS="PROGRAMLISTING"
+>1D1E 7D1D1D            TST   WHICH1    ;.7d1d1d
+1D21 2A0139            BMI   ?RTS      ;.2a0139
+1D24 1D24              FDB   *         ;.1d24
+1D26                   xyz   INV       ;.E:32    (Error 32 is "Bad opcode")</PRE
+></DD
+></DL
+></DIV
+><P
+>As a convenience, each input file has a pragma state stack. This
+allows, through the use of *PRAGMAPUSH and *PRAGMAPOP, a file to change a
+pragma state and then restore it to the precise state it had previously.
+If, at the end of an input file, all pragma states have not been popped,
+they will be removed from the stack.  Thus, it is critical to employ
+*PRAGMAPOP correctly. Because each input file has its own pragma stack,
+using *PRAGMAPUSH in one file and *PRAGMAPOP in another file will not
+work.</P
+><P
+>Pragma stacks are more useful in include files, in particular in
+conjunction with the nolist pragma.  One can push the state of the nolist
+pragma, engage the nolist pragma, and then pop the state of the nolist
+pragma at the end of the include file.  This will cause the entire include
+file to operate under the nolist pragma.  However, if the file is included
+while nolist is already engaged, it will not undo that state.</P
+></DIV
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--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
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+<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
+<HTML
+><HEAD
+><TITLE
+>Convenience Instructions</TITLE
+><META
+NAME="GENERATOR"
+CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
+REL="HOME"
+TITLE="LW Tool Chain"
+HREF="index.html"><LINK
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+TITLE="LWASM"
+HREF="c62.html"><LINK
+REL="PREVIOUS"
+TITLE="Assembler Modes and Pragmas"
+HREF="x659.html"><LINK
+REL="NEXT"
+TITLE="Cycle Counts"
+HREF="x800.html"></HEAD
+><BODY
+CLASS="SECTION"
+BGCOLOR="#FFFFFF"
+TEXT="#000000"
+LINK="#0000FF"
+VLINK="#840084"
+ALINK="#0000FF"
+><DIV
+CLASS="NAVHEADER"
+><TABLE
+SUMMARY="Header navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
+><TH
+COLSPAN="3"
+ALIGN="center"
+>LW Tool Chain</TH
+></TR
+><TR
+><TD
+WIDTH="10%"
+ALIGN="left"
+VALIGN="bottom"
+><A
+HREF="x659.html"
+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="80%"
+ALIGN="center"
+VALIGN="bottom"
+>Chapter 3. LWASM</TD
+><TD
+WIDTH="10%"
+ALIGN="right"
+VALIGN="bottom"
+><A
+HREF="x800.html"
+ACCESSKEY="N"
+>Next</A
+></TD
+></TR
+></TABLE
+><HR
+ALIGN="LEFT"
+WIDTH="100%"></DIV
+><DIV
+CLASS="SECTION"
+><H1
+CLASS="SECTION"
+><A
+NAME="CONVINST"
+>3.11. Convenience Instructions</A
+></H1
+><P
+>&#13;Similar to the 6800 compatibility instructions (pragma 6800compat) these
+pragma 6809conv and pragma 6309conv enable convenience extensions to the
+6809 and 6309 instruction set.  Originally intended for compatibility with
+the MACRO-80c assembler, these have proven useful in large codebases that
+target both the 6809 and the 6309.</P
+><P
+>&#13;The 6809 extensions are straightforward with the exception of "TSTD" which
+assembles as "STD -2,S".  A benefit of using these is they will "just work"
+and take on their 6309 equivalent when you enable 6309 assembly mode.
+Supported instructions: ASRD, CLRD,   COMD,   LSLD,   LSRD,   NEGD,   TSTD.</P
+><P
+>&#13;6309 extensions are based on common patterns described by Chris Burke and
+Darren Atkinson in their 6309 documentation and include the following
+instructions: ASRQ,   CLRQ,   COMQ,   LSLE,   LSLF,   LSLQ,   LSRQ,   NEGE,
+   NEGF,   NEGW,   NEGQ,   TSTQ.</P
+></DIV
+><DIV
+CLASS="NAVFOOTER"
+><HR
+ALIGN="LEFT"
+WIDTH="100%"><TABLE
+SUMMARY="Footer navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
+><TD
+WIDTH="33%"
+ALIGN="left"
+VALIGN="top"
+><A
+HREF="x659.html"
+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="34%"
+ALIGN="center"
+VALIGN="top"
+><A
+HREF="index.html"
+ACCESSKEY="H"
+>Home</A
+></TD
+><TD
+WIDTH="33%"
+ALIGN="right"
+VALIGN="top"
+><A
+HREF="x800.html"
+ACCESSKEY="N"
+>Next</A
+></TD
+></TR
+><TR
+><TD
+WIDTH="33%"
+ALIGN="left"
+VALIGN="top"
+>Assembler Modes and Pragmas</TD
+><TD
+WIDTH="34%"
+ALIGN="center"
+VALIGN="top"
+><A
+HREF="c62.html"
+ACCESSKEY="U"
+>Up</A
+></TD
+><TD
+WIDTH="33%"
+ALIGN="right"
+VALIGN="top"
+>Cycle Counts</TD
+></TR
+></TABLE
+></DIV
+></BODY
+></HTML
+>
\ No newline at end of file
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/docs/manual/x800.html	Wed Jul 15 19:54:57 2015 -0600
@@ -0,0 +1,174 @@
+<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
+<HTML
+><HEAD
+><TITLE
+>Cycle Counts</TITLE
+><META
+NAME="GENERATOR"
+CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
+REL="HOME"
+TITLE="LW Tool Chain"
+HREF="index.html"><LINK
+REL="UP"
+TITLE="LWASM"
+HREF="c62.html"><LINK
+REL="PREVIOUS"
+TITLE="Convenience Instructions"
+HREF="x795.html"><LINK
+REL="NEXT"
+TITLE="LWLINK"
+HREF="c806.html"></HEAD
+><BODY
+CLASS="SECTION"
+BGCOLOR="#FFFFFF"
+TEXT="#000000"
+LINK="#0000FF"
+VLINK="#840084"
+ALINK="#0000FF"
+><DIV
+CLASS="NAVHEADER"
+><TABLE
+SUMMARY="Header navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
+><TH
+COLSPAN="3"
+ALIGN="center"
+>LW Tool Chain</TH
+></TR
+><TR
+><TD
+WIDTH="10%"
+ALIGN="left"
+VALIGN="bottom"
+><A
+HREF="x795.html"
+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="80%"
+ALIGN="center"
+VALIGN="bottom"
+>Chapter 3. LWASM</TD
+><TD
+WIDTH="10%"
+ALIGN="right"
+VALIGN="bottom"
+><A
+HREF="c806.html"
+ACCESSKEY="N"
+>Next</A
+></TD
+></TR
+></TABLE
+><HR
+ALIGN="LEFT"
+WIDTH="100%"></DIV
+><DIV
+CLASS="SECTION"
+><H1
+CLASS="SECTION"
+><A
+NAME="AEN800"
+>3.12. Cycle Counts</A
+></H1
+><P
+>&#13;The following options for displaying cycle counts in listings are provided.
+These options are enabled from pragmas on the command line or in the
+assembly files themselves.  For compatibility with other assemblers you can
+use the "OPT" keyword in addition to "PRAGMA."</P
+><PRE
+CLASS="PROGRAMLISTING"
+>opt c  - enable cycle counts: [8]
+opt cd - enable detailed cycle counts breaking down addressing modes: [5+3]
+opt ct - show a running subtotal of cycles
+opt cc - clear the running subtotal</PRE
+><P
+>&#13;The assembler supports both 6809 as well as native-mode 6309 cycle counts.
+In 6309 mode the counts are displayed in parenthesis instead of brackets.
+In addition, some operations have a variable cycle count.  In this case a
+"+?" is displayed to alert the reader.  Sample output is shown below.</P
+><PRE
+CLASS="PROGRAMLISTING"
+>266f 7d25e2     (window.asm):00313 [7]     7       move   tst   putflg
+2672 2602       (window.asm):00314 [5]     12             bne   a@
+2674 1e13       (window.asm):00315 [8]     20             exg   x,u
+2676 0dd6       (window.asm):00316 [6]     26      a@     tst   is6309
+2678 2618       (window.asm):00317 [5]     31             bne   exit@
+                (window.asm):00318                        opt   6309
+267a 10860085   (window.asm):00319 (4)     35      b@     ldw   #133
+267e 113813     (window.asm):00320 (6+?)   41             tfm   x+,u+
+2681 30881b     (window.asm):00321 (4+1)   46             leax  27,x
+2684 33c81b     (window.asm):00322 (4+1)   51             leau  27,u
+2687 4a         (window.asm):00323 (1)     52             deca
+2688 26f0       (window.asm):00324 (5)     57             bne   b@</PRE
+></DIV
+><DIV
+CLASS="NAVFOOTER"
+><HR
+ALIGN="LEFT"
+WIDTH="100%"><TABLE
+SUMMARY="Footer navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
+><TD
+WIDTH="33%"
+ALIGN="left"
+VALIGN="top"
+><A
+HREF="x795.html"
+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="34%"
+ALIGN="center"
+VALIGN="top"
+><A
+HREF="index.html"
+ACCESSKEY="H"
+>Home</A
+></TD
+><TD
+WIDTH="33%"
+ALIGN="right"
+VALIGN="top"
+><A
+HREF="c806.html"
+ACCESSKEY="N"
+>Next</A
+></TD
+></TR
+><TR
+><TD
+WIDTH="33%"
+ALIGN="left"
+VALIGN="top"
+>Convenience Instructions</TD
+><TD
+WIDTH="34%"
+ALIGN="center"
+VALIGN="top"
+><A
+HREF="c62.html"
+ACCESSKEY="U"
+>Up</A
+></TD
+><TD
+WIDTH="33%"
+ALIGN="right"
+VALIGN="top"
+>LWLINK</TD
+></TR
+></TABLE
+></DIV
+></BODY
+></HTML
+>
\ No newline at end of file
--- a/docs/manual/x845.html	Tue Jul 14 23:12:24 2015 -0600
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,191 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
-<HTML
-><HEAD
-><TITLE
->Linker Operation</TITLE
-><META
-NAME="GENERATOR"
-CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
-REL="HOME"
-TITLE="LW Tool Chain"
-HREF="index.html"><LINK
-REL="UP"
-TITLE="LWLINK"
-HREF="c745.html"><LINK
-REL="PREVIOUS"
-TITLE="LWLINK"
-HREF="c745.html"><LINK
-REL="NEXT"
-TITLE="Linking Scripts"
-HREF="x859.html"></HEAD
-><BODY
-CLASS="SECTION"
-BGCOLOR="#FFFFFF"
-TEXT="#000000"
-LINK="#0000FF"
-VLINK="#840084"
-ALINK="#0000FF"
-><DIV
-CLASS="NAVHEADER"
-><TABLE
-SUMMARY="Header navigation table"
-WIDTH="100%"
-BORDER="0"
-CELLPADDING="0"
-CELLSPACING="0"
-><TR
-><TH
-COLSPAN="3"
-ALIGN="center"
->LW Tool Chain</TH
-></TR
-><TR
-><TD
-WIDTH="10%"
-ALIGN="left"
-VALIGN="bottom"
-><A
-HREF="c745.html"
-ACCESSKEY="P"
->Prev</A
-></TD
-><TD
-WIDTH="80%"
-ALIGN="center"
-VALIGN="bottom"
->Chapter 4. LWLINK</TD
-><TD
-WIDTH="10%"
-ALIGN="right"
-VALIGN="bottom"
-><A
-HREF="x859.html"
-ACCESSKEY="N"
->Next</A
-></TD
-></TR
-></TABLE
-><HR
-ALIGN="LEFT"
-WIDTH="100%"></DIV
-><DIV
-CLASS="SECTION"
-><H1
-CLASS="SECTION"
-><A
-NAME="AEN845"
->4.2. Linker Operation</A
-></H1
-><P
->&#13;LWLINK takes one or more files in supported input formats and links them
-into a single binary. Currently supported formats are the LWTOOLS object
-file format and the archive format used by LWAR. While the precise method is
-slightly different, linking can be conceptualized as the following steps.&#13;</P
-><P
-></P
-><OL
-TYPE="1"
-><LI
-><P
->First, the linker loads a linking script. If no script is specified, it
-loads a built-in default script based on the output format selected. This
-script tells the linker how to lay out the various sections in the final
-binary.</P
-></LI
-><LI
-><P
->Next, the linker reads all the input files into memory. At this time, it
-flags any format errors in those files. It constructs a table of symbols
-for each object at this time.</P
-></LI
-><LI
-><P
->The linker then proceeds with organizing the sections loaded from each file
-according to the linking script. As it does so, it is able to assign addresses
-to each symbol defined in each object file. At this time, the linker may
-also collapse different instances of the same section name into a single
-section by appending the data from each subsequent instance of the section
-to the first instance of the section.</P
-></LI
-><LI
-><P
->Next, the linker looks through every object file for every incomplete reference.
-It then attempts to fully resolve that reference. If it cannot do so, it
-throws an error. Once a reference is resolved, the value is placed into
-the binary code at the specified section. It should be noted that an
-incomplete reference can reference either a symbol internal to the object
-file or an external symbol which is in the export list of another object
-file.</P
-></LI
-><LI
-><P
->If all of the above steps are successful, the linker opens the output file
-and actually constructs the binary.</P
-></LI
-></OL
-></DIV
-><DIV
-CLASS="NAVFOOTER"
-><HR
-ALIGN="LEFT"
-WIDTH="100%"><TABLE
-SUMMARY="Footer navigation table"
-WIDTH="100%"
-BORDER="0"
-CELLPADDING="0"
-CELLSPACING="0"
-><TR
-><TD
-WIDTH="33%"
-ALIGN="left"
-VALIGN="top"
-><A
-HREF="c745.html"
-ACCESSKEY="P"
->Prev</A
-></TD
-><TD
-WIDTH="34%"
-ALIGN="center"
-VALIGN="top"
-><A
-HREF="index.html"
-ACCESSKEY="H"
->Home</A
-></TD
-><TD
-WIDTH="33%"
-ALIGN="right"
-VALIGN="top"
-><A
-HREF="x859.html"
-ACCESSKEY="N"
->Next</A
-></TD
-></TR
-><TR
-><TD
-WIDTH="33%"
-ALIGN="left"
-VALIGN="top"
->LWLINK</TD
-><TD
-WIDTH="34%"
-ALIGN="center"
-VALIGN="top"
-><A
-HREF="c745.html"
-ACCESSKEY="U"
->Up</A
-></TD
-><TD
-WIDTH="33%"
-ALIGN="right"
-VALIGN="top"
->Linking Scripts</TD
-></TR
-></TABLE
-></DIV
-></BODY
-></HTML
->
\ No newline at end of file
--- a/docs/manual/x859.html	Tue Jul 14 23:12:24 2015 -0600
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,339 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
-<HTML
-><HEAD
-><TITLE
->Linking Scripts</TITLE
-><META
-NAME="GENERATOR"
-CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
-REL="HOME"
-TITLE="LW Tool Chain"
-HREF="index.html"><LINK
-REL="UP"
-TITLE="LWLINK"
-HREF="c745.html"><LINK
-REL="PREVIOUS"
-TITLE="Linker Operation"
-HREF="x845.html"><LINK
-REL="NEXT"
-TITLE="Format Specific Linking Notes"
-HREF="x925.html"></HEAD
-><BODY
-CLASS="SECTION"
-BGCOLOR="#FFFFFF"
-TEXT="#000000"
-LINK="#0000FF"
-VLINK="#840084"
-ALINK="#0000FF"
-><DIV
-CLASS="NAVHEADER"
-><TABLE
-SUMMARY="Header navigation table"
-WIDTH="100%"
-BORDER="0"
-CELLPADDING="0"
-CELLSPACING="0"
-><TR
-><TH
-COLSPAN="3"
-ALIGN="center"
->LW Tool Chain</TH
-></TR
-><TR
-><TD
-WIDTH="10%"
-ALIGN="left"
-VALIGN="bottom"
-><A
-HREF="x845.html"
-ACCESSKEY="P"
->Prev</A
-></TD
-><TD
-WIDTH="80%"
-ALIGN="center"
-VALIGN="bottom"
->Chapter 4. LWLINK</TD
-><TD
-WIDTH="10%"
-ALIGN="right"
-VALIGN="bottom"
-><A
-HREF="x925.html"
-ACCESSKEY="N"
->Next</A
-></TD
-></TR
-></TABLE
-><HR
-ALIGN="LEFT"
-WIDTH="100%"></DIV
-><DIV
-CLASS="SECTION"
-><H1
-CLASS="SECTION"
-><A
-NAME="AEN859"
->4.3. Linking Scripts</A
-></H1
-><P
->A linker script is used to instruct the linker about how to assemble the
-various sections into a completed binary. It consists of a series of
-directives which are considered in the order they are encountered.</P
-><P
->The sections will appear in the resulting binary in the order they are
-specified in the script file. If a referenced section is not found, the linker will behave as though the
-section did exist but had a zero size, no relocations, and no exports.
-A section should only be referenced once. Any subsequent references will have
-an undefined effect.</P
-><P
->All numbers are in linking scripts are specified in hexadecimal. All directives
-are case sensitive although the hexadecimal numbers are not.</P
-><P
->A section name can be specified as a "*", then any section not
-already matched by the script will be matched. The "*" can be followed
-by a comma and a flag to narrow the section down slightly, also.
-If the flag is "!bss", then any section that is not flagged as a bss section
-will be matched. If the flag is "bss", then any section that is flagged as
-bss will be matched.</P
-><P
->The following directives are understood in a linker script.</P
-><P
-></P
-><DIV
-CLASS="VARIABLELIST"
-><DL
-><DT
->sectopt <CODE
-CLASS="PARAMETER"
->section</CODE
-> padafter <CODE
-CLASS="PARAMETER"
->byte,...</CODE
-></DT
-><DD
-><P
->&#13;This will cause the linker to append the specified list of byte values
-(specified in hexadecimal separated by commas) to the end of the named
-section.  This is done once all instances of the specified section are
-collected together.  This has no effect if the specified section does not
-appear anywhere in any of the objects specified for linking. &#13;</P
-><P
->&#13;If code depends on the presence of this padding somewhere, it is sufficient
-to include an empty section of the specified name in the object that depends
-on it.&#13;</P
-></DD
-><DT
->define basesympat <CODE
-CLASS="PARAMETER"
->string</CODE
-></DT
-><DD
-><P
->&#13;This causes the linker to define a symbol for the ultimate base address of
-each section using the pattern specified by <CODE
-CLASS="PARAMETER"
->string</CODE
->.
-In the string, %s can appear exactly once and will be replaced with the
-section name.  The base address is calculated after all instances of each
-section have been collapsed together.&#13;</P
-><P
->&#13;It should be noted that if none of the objects to be linked contains a
-particular section name, there will be no base symbol defined for it, even
-if it is listed explicitly in the link script.  If code depends on the
-presence of these symbols, it is sufficient to include an empty section of
-the specified name in the object that depends on it.&#13;</P
-><P
->  If the pattern resolves to the same string for multiple
-sections, the results are undefined.&#13;</P
-></DD
-><DT
->define lensympat <CODE
-CLASS="PARAMETER"
->string</CODE
-></DT
-><DD
-><P
->&#13;This causes the linker to define a symbol for the ultimate length of each
-section using the pattern specified by <CODE
-CLASS="PARAMETER"
->string</CODE
->.  In
-the string, %s can appear exactly once and will be replaced with the section
-name.  The length is calculated after all instances of a section have been
-collapsed together.&#13;</P
-><P
->&#13;It should be noted that if none of the objects to be linked contains a
-particular section name, there will be no length symbol defined for it, even
-if it is listed explicitly in the link script.  If code depends on the
-presence of these symbols, it is sufficient to include an empty section of
-the specified name in the object that depends on it.&#13;</P
-><P
->If the pattern resolves to the same string for multiple
-sections, the results are undefined.&#13;</P
-></DD
-><DT
->section <CODE
-CLASS="PARAMETER"
->name</CODE
-> load <CODE
-CLASS="PARAMETER"
->addr</CODE
-></DT
-><DD
-><P
->&#13;This causes the section <CODE
-CLASS="PARAMETER"
->name</CODE
-> to load at
-<CODE
-CLASS="PARAMETER"
->addr</CODE
->. For the raw target, only one "load at" entry is
-allowed for non-bss sections and it must be the first one. For raw targets,
-it affects the addresses the linker assigns to symbols but has no other
-affect on the output. bss sections may all have separate load addresses but
-since they will not appear in the binary anyway, this is okay.</P
-><P
->For the decb target, each "load" entry will cause a new "block" to be
-output to the binary which will contain the load address. It is legal for
-sections to overlap in this manner - the linker assumes the loader will sort
-everything out.</P
-></DD
-><DT
->section <CODE
-CLASS="PARAMETER"
->name</CODE
-> high <CODE
-CLASS="PARAMETER"
->addr</CODE
-></DT
-><DD
-><P
->&#13;This causes the section <CODE
-CLASS="PARAMETER"
->name</CODE
-> to load with its end
-address just below <CODE
-CLASS="PARAMETER"
->addr</CODE
->.  Subsequent sections are
-loaded at progressively lower addresses.  This may lead to inefficient file
-encoding for some targets.  As of this writing, it will also almost
-certainly do the wrong thing for a raw target.&#13;</P
-><P
->&#13;This is useful for aligning a block of code with high memory.  As an
-example, if the total size of a section is $100 bytes and a high address of
-$FE00 is specified, the section will actually load at $FD00.&#13;</P
-></DD
-><DT
->section <CODE
-CLASS="PARAMETER"
->name</CODE
-></DT
-><DD
-><P
->&#13;This will cause the section <CODE
-CLASS="PARAMETER"
->name</CODE
-> to load after the previously listed
-section.</P
-></DD
-><DT
->entry <CODE
-CLASS="PARAMETER"
->addr or sym</CODE
-></DT
-><DD
-><P
->This will cause the execution address (entry point) to be the address
-specified (in hex) or the specified symbol name. The symbol name must
-match a symbol that is exported by one of the object files being linked.
-This has no effect for targets that do not encode the entry point into the
-resulting file. If not specified, the entry point is assumed to be address 0
-which is probably not what you want. The default link scripts for targets
-that support this directive automatically starts at the beginning of the
-first section (usually "init" or "code") that is emitted in the binary.</P
-></DD
-><DT
->pad <CODE
-CLASS="PARAMETER"
->size</CODE
-></DT
-><DD
-><P
->This will cause the output file to be padded with NUL bytes to be exactly
-<CODE
-CLASS="PARAMETER"
->size</CODE
-> bytes in length. This only makes sense for a raw target.</P
-></DD
-></DL
-></DIV
-></DIV
-><DIV
-CLASS="NAVFOOTER"
-><HR
-ALIGN="LEFT"
-WIDTH="100%"><TABLE
-SUMMARY="Footer navigation table"
-WIDTH="100%"
-BORDER="0"
-CELLPADDING="0"
-CELLSPACING="0"
-><TR
-><TD
-WIDTH="33%"
-ALIGN="left"
-VALIGN="top"
-><A
-HREF="x845.html"
-ACCESSKEY="P"
->Prev</A
-></TD
-><TD
-WIDTH="34%"
-ALIGN="center"
-VALIGN="top"
-><A
-HREF="index.html"
-ACCESSKEY="H"
->Home</A
-></TD
-><TD
-WIDTH="33%"
-ALIGN="right"
-VALIGN="top"
-><A
-HREF="x925.html"
-ACCESSKEY="N"
->Next</A
-></TD
-></TR
-><TR
-><TD
-WIDTH="33%"
-ALIGN="left"
-VALIGN="top"
->Linker Operation</TD
-><TD
-WIDTH="34%"
-ALIGN="center"
-VALIGN="top"
-><A
-HREF="c745.html"
-ACCESSKEY="U"
->Up</A
-></TD
-><TD
-WIDTH="33%"
-ALIGN="right"
-VALIGN="top"
->Format Specific Linking Notes</TD
-></TR
-></TABLE
-></DIV
-></BODY
-></HTML
->
\ No newline at end of file
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/docs/manual/x906.html	Wed Jul 15 19:54:57 2015 -0600
@@ -0,0 +1,191 @@
+<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
+<HTML
+><HEAD
+><TITLE
+>Linker Operation</TITLE
+><META
+NAME="GENERATOR"
+CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
+REL="HOME"
+TITLE="LW Tool Chain"
+HREF="index.html"><LINK
+REL="UP"
+TITLE="LWLINK"
+HREF="c806.html"><LINK
+REL="PREVIOUS"
+TITLE="LWLINK"
+HREF="c806.html"><LINK
+REL="NEXT"
+TITLE="Linking Scripts"
+HREF="x920.html"></HEAD
+><BODY
+CLASS="SECTION"
+BGCOLOR="#FFFFFF"
+TEXT="#000000"
+LINK="#0000FF"
+VLINK="#840084"
+ALINK="#0000FF"
+><DIV
+CLASS="NAVHEADER"
+><TABLE
+SUMMARY="Header navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
+><TH
+COLSPAN="3"
+ALIGN="center"
+>LW Tool Chain</TH
+></TR
+><TR
+><TD
+WIDTH="10%"
+ALIGN="left"
+VALIGN="bottom"
+><A
+HREF="c806.html"
+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="80%"
+ALIGN="center"
+VALIGN="bottom"
+>Chapter 4. LWLINK</TD
+><TD
+WIDTH="10%"
+ALIGN="right"
+VALIGN="bottom"
+><A
+HREF="x920.html"
+ACCESSKEY="N"
+>Next</A
+></TD
+></TR
+></TABLE
+><HR
+ALIGN="LEFT"
+WIDTH="100%"></DIV
+><DIV
+CLASS="SECTION"
+><H1
+CLASS="SECTION"
+><A
+NAME="AEN906"
+>4.2. Linker Operation</A
+></H1
+><P
+>&#13;LWLINK takes one or more files in supported input formats and links them
+into a single binary. Currently supported formats are the LWTOOLS object
+file format and the archive format used by LWAR. While the precise method is
+slightly different, linking can be conceptualized as the following steps.&#13;</P
+><P
+></P
+><OL
+TYPE="1"
+><LI
+><P
+>First, the linker loads a linking script. If no script is specified, it
+loads a built-in default script based on the output format selected. This
+script tells the linker how to lay out the various sections in the final
+binary.</P
+></LI
+><LI
+><P
+>Next, the linker reads all the input files into memory. At this time, it
+flags any format errors in those files. It constructs a table of symbols
+for each object at this time.</P
+></LI
+><LI
+><P
+>The linker then proceeds with organizing the sections loaded from each file
+according to the linking script. As it does so, it is able to assign addresses
+to each symbol defined in each object file. At this time, the linker may
+also collapse different instances of the same section name into a single
+section by appending the data from each subsequent instance of the section
+to the first instance of the section.</P
+></LI
+><LI
+><P
+>Next, the linker looks through every object file for every incomplete reference.
+It then attempts to fully resolve that reference. If it cannot do so, it
+throws an error. Once a reference is resolved, the value is placed into
+the binary code at the specified section. It should be noted that an
+incomplete reference can reference either a symbol internal to the object
+file or an external symbol which is in the export list of another object
+file.</P
+></LI
+><LI
+><P
+>If all of the above steps are successful, the linker opens the output file
+and actually constructs the binary.</P
+></LI
+></OL
+></DIV
+><DIV
+CLASS="NAVFOOTER"
+><HR
+ALIGN="LEFT"
+WIDTH="100%"><TABLE
+SUMMARY="Footer navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
+><TD
+WIDTH="33%"
+ALIGN="left"
+VALIGN="top"
+><A
+HREF="c806.html"
+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="34%"
+ALIGN="center"
+VALIGN="top"
+><A
+HREF="index.html"
+ACCESSKEY="H"
+>Home</A
+></TD
+><TD
+WIDTH="33%"
+ALIGN="right"
+VALIGN="top"
+><A
+HREF="x920.html"
+ACCESSKEY="N"
+>Next</A
+></TD
+></TR
+><TR
+><TD
+WIDTH="33%"
+ALIGN="left"
+VALIGN="top"
+>LWLINK</TD
+><TD
+WIDTH="34%"
+ALIGN="center"
+VALIGN="top"
+><A
+HREF="c806.html"
+ACCESSKEY="U"
+>Up</A
+></TD
+><TD
+WIDTH="33%"
+ALIGN="right"
+VALIGN="top"
+>Linking Scripts</TD
+></TR
+></TABLE
+></DIV
+></BODY
+></HTML
+>
\ No newline at end of file
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/docs/manual/x920.html	Wed Jul 15 19:54:57 2015 -0600
@@ -0,0 +1,339 @@
+<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
+<HTML
+><HEAD
+><TITLE
+>Linking Scripts</TITLE
+><META
+NAME="GENERATOR"
+CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
+REL="HOME"
+TITLE="LW Tool Chain"
+HREF="index.html"><LINK
+REL="UP"
+TITLE="LWLINK"
+HREF="c806.html"><LINK
+REL="PREVIOUS"
+TITLE="Linker Operation"
+HREF="x906.html"><LINK
+REL="NEXT"
+TITLE="Format Specific Linking Notes"
+HREF="x986.html"></HEAD
+><BODY
+CLASS="SECTION"
+BGCOLOR="#FFFFFF"
+TEXT="#000000"
+LINK="#0000FF"
+VLINK="#840084"
+ALINK="#0000FF"
+><DIV
+CLASS="NAVHEADER"
+><TABLE
+SUMMARY="Header navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
+><TH
+COLSPAN="3"
+ALIGN="center"
+>LW Tool Chain</TH
+></TR
+><TR
+><TD
+WIDTH="10%"
+ALIGN="left"
+VALIGN="bottom"
+><A
+HREF="x906.html"
+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="80%"
+ALIGN="center"
+VALIGN="bottom"
+>Chapter 4. LWLINK</TD
+><TD
+WIDTH="10%"
+ALIGN="right"
+VALIGN="bottom"
+><A
+HREF="x986.html"
+ACCESSKEY="N"
+>Next</A
+></TD
+></TR
+></TABLE
+><HR
+ALIGN="LEFT"
+WIDTH="100%"></DIV
+><DIV
+CLASS="SECTION"
+><H1
+CLASS="SECTION"
+><A
+NAME="AEN920"
+>4.3. Linking Scripts</A
+></H1
+><P
+>A linker script is used to instruct the linker about how to assemble the
+various sections into a completed binary. It consists of a series of
+directives which are considered in the order they are encountered.</P
+><P
+>The sections will appear in the resulting binary in the order they are
+specified in the script file. If a referenced section is not found, the linker will behave as though the
+section did exist but had a zero size, no relocations, and no exports.
+A section should only be referenced once. Any subsequent references will have
+an undefined effect.</P
+><P
+>All numbers are in linking scripts are specified in hexadecimal. All directives
+are case sensitive although the hexadecimal numbers are not.</P
+><P
+>A section name can be specified as a "*", then any section not
+already matched by the script will be matched. The "*" can be followed
+by a comma and a flag to narrow the section down slightly, also.
+If the flag is "!bss", then any section that is not flagged as a bss section
+will be matched. If the flag is "bss", then any section that is flagged as
+bss will be matched.</P
+><P
+>The following directives are understood in a linker script.</P
+><P
+></P
+><DIV
+CLASS="VARIABLELIST"
+><DL
+><DT
+>sectopt <CODE
+CLASS="PARAMETER"
+>section</CODE
+> padafter <CODE
+CLASS="PARAMETER"
+>byte,...</CODE
+></DT
+><DD
+><P
+>&#13;This will cause the linker to append the specified list of byte values
+(specified in hexadecimal separated by commas) to the end of the named
+section.  This is done once all instances of the specified section are
+collected together.  This has no effect if the specified section does not
+appear anywhere in any of the objects specified for linking. &#13;</P
+><P
+>&#13;If code depends on the presence of this padding somewhere, it is sufficient
+to include an empty section of the specified name in the object that depends
+on it.&#13;</P
+></DD
+><DT
+>define basesympat <CODE
+CLASS="PARAMETER"
+>string</CODE
+></DT
+><DD
+><P
+>&#13;This causes the linker to define a symbol for the ultimate base address of
+each section using the pattern specified by <CODE
+CLASS="PARAMETER"
+>string</CODE
+>.
+In the string, %s can appear exactly once and will be replaced with the
+section name.  The base address is calculated after all instances of each
+section have been collapsed together.&#13;</P
+><P
+>&#13;It should be noted that if none of the objects to be linked contains a
+particular section name, there will be no base symbol defined for it, even
+if it is listed explicitly in the link script.  If code depends on the
+presence of these symbols, it is sufficient to include an empty section of
+the specified name in the object that depends on it.&#13;</P
+><P
+>  If the pattern resolves to the same string for multiple
+sections, the results are undefined.&#13;</P
+></DD
+><DT
+>define lensympat <CODE
+CLASS="PARAMETER"
+>string</CODE
+></DT
+><DD
+><P
+>&#13;This causes the linker to define a symbol for the ultimate length of each
+section using the pattern specified by <CODE
+CLASS="PARAMETER"
+>string</CODE
+>.  In
+the string, %s can appear exactly once and will be replaced with the section
+name.  The length is calculated after all instances of a section have been
+collapsed together.&#13;</P
+><P
+>&#13;It should be noted that if none of the objects to be linked contains a
+particular section name, there will be no length symbol defined for it, even
+if it is listed explicitly in the link script.  If code depends on the
+presence of these symbols, it is sufficient to include an empty section of
+the specified name in the object that depends on it.&#13;</P
+><P
+>If the pattern resolves to the same string for multiple
+sections, the results are undefined.&#13;</P
+></DD
+><DT
+>section <CODE
+CLASS="PARAMETER"
+>name</CODE
+> load <CODE
+CLASS="PARAMETER"
+>addr</CODE
+></DT
+><DD
+><P
+>&#13;This causes the section <CODE
+CLASS="PARAMETER"
+>name</CODE
+> to load at
+<CODE
+CLASS="PARAMETER"
+>addr</CODE
+>. For the raw target, only one "load at" entry is
+allowed for non-bss sections and it must be the first one. For raw targets,
+it affects the addresses the linker assigns to symbols but has no other
+affect on the output. bss sections may all have separate load addresses but
+since they will not appear in the binary anyway, this is okay.</P
+><P
+>For the decb target, each "load" entry will cause a new "block" to be
+output to the binary which will contain the load address. It is legal for
+sections to overlap in this manner - the linker assumes the loader will sort
+everything out.</P
+></DD
+><DT
+>section <CODE
+CLASS="PARAMETER"
+>name</CODE
+> high <CODE
+CLASS="PARAMETER"
+>addr</CODE
+></DT
+><DD
+><P
+>&#13;This causes the section <CODE
+CLASS="PARAMETER"
+>name</CODE
+> to load with its end
+address just below <CODE
+CLASS="PARAMETER"
+>addr</CODE
+>.  Subsequent sections are
+loaded at progressively lower addresses.  This may lead to inefficient file
+encoding for some targets.  As of this writing, it will also almost
+certainly do the wrong thing for a raw target.&#13;</P
+><P
+>&#13;This is useful for aligning a block of code with high memory.  As an
+example, if the total size of a section is $100 bytes and a high address of
+$FE00 is specified, the section will actually load at $FD00.&#13;</P
+></DD
+><DT
+>section <CODE
+CLASS="PARAMETER"
+>name</CODE
+></DT
+><DD
+><P
+>&#13;This will cause the section <CODE
+CLASS="PARAMETER"
+>name</CODE
+> to load after the previously listed
+section.</P
+></DD
+><DT
+>entry <CODE
+CLASS="PARAMETER"
+>addr or sym</CODE
+></DT
+><DD
+><P
+>This will cause the execution address (entry point) to be the address
+specified (in hex) or the specified symbol name. The symbol name must
+match a symbol that is exported by one of the object files being linked.
+This has no effect for targets that do not encode the entry point into the
+resulting file. If not specified, the entry point is assumed to be address 0
+which is probably not what you want. The default link scripts for targets
+that support this directive automatically starts at the beginning of the
+first section (usually "init" or "code") that is emitted in the binary.</P
+></DD
+><DT
+>pad <CODE
+CLASS="PARAMETER"
+>size</CODE
+></DT
+><DD
+><P
+>This will cause the output file to be padded with NUL bytes to be exactly
+<CODE
+CLASS="PARAMETER"
+>size</CODE
+> bytes in length. This only makes sense for a raw target.</P
+></DD
+></DL
+></DIV
+></DIV
+><DIV
+CLASS="NAVFOOTER"
+><HR
+ALIGN="LEFT"
+WIDTH="100%"><TABLE
+SUMMARY="Footer navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
+><TD
+WIDTH="33%"
+ALIGN="left"
+VALIGN="top"
+><A
+HREF="x906.html"
+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="34%"
+ALIGN="center"
+VALIGN="top"
+><A
+HREF="index.html"
+ACCESSKEY="H"
+>Home</A
+></TD
+><TD
+WIDTH="33%"
+ALIGN="right"
+VALIGN="top"
+><A
+HREF="x986.html"
+ACCESSKEY="N"
+>Next</A
+></TD
+></TR
+><TR
+><TD
+WIDTH="33%"
+ALIGN="left"
+VALIGN="top"
+>Linker Operation</TD
+><TD
+WIDTH="34%"
+ALIGN="center"
+VALIGN="top"
+><A
+HREF="c806.html"
+ACCESSKEY="U"
+>Up</A
+></TD
+><TD
+WIDTH="33%"
+ALIGN="right"
+VALIGN="top"
+>Format Specific Linking Notes</TD
+></TR
+></TABLE
+></DIV
+></BODY
+></HTML
+>
\ No newline at end of file
--- a/docs/manual/x925.html	Tue Jul 14 23:12:24 2015 -0600
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,224 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
-<HTML
-><HEAD
-><TITLE
->Format Specific Linking Notes</TITLE
-><META
-NAME="GENERATOR"
-CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
-REL="HOME"
-TITLE="LW Tool Chain"
-HREF="index.html"><LINK
-REL="UP"
-TITLE="LWLINK"
-HREF="c745.html"><LINK
-REL="PREVIOUS"
-TITLE="Linking Scripts"
-HREF="x859.html"><LINK
-REL="NEXT"
-TITLE="Libraries and LWAR"
-HREF="c940.html"></HEAD
-><BODY
-CLASS="SECTION"
-BGCOLOR="#FFFFFF"
-TEXT="#000000"
-LINK="#0000FF"
-VLINK="#840084"
-ALINK="#0000FF"
-><DIV
-CLASS="NAVHEADER"
-><TABLE
-SUMMARY="Header navigation table"
-WIDTH="100%"
-BORDER="0"
-CELLPADDING="0"
-CELLSPACING="0"
-><TR
-><TH
-COLSPAN="3"
-ALIGN="center"
->LW Tool Chain</TH
-></TR
-><TR
-><TD
-WIDTH="10%"
-ALIGN="left"
-VALIGN="bottom"
-><A
-HREF="x859.html"
-ACCESSKEY="P"
->Prev</A
-></TD
-><TD
-WIDTH="80%"
-ALIGN="center"
-VALIGN="bottom"
->Chapter 4. LWLINK</TD
-><TD
-WIDTH="10%"
-ALIGN="right"
-VALIGN="bottom"
-><A
-HREF="c940.html"
-ACCESSKEY="N"
->Next</A
-></TD
-></TR
-></TABLE
-><HR
-ALIGN="LEFT"
-WIDTH="100%"></DIV
-><DIV
-CLASS="SECTION"
-><H1
-CLASS="SECTION"
-><A
-NAME="AEN925"
->4.4. Format Specific Linking Notes</A
-></H1
-><P
->Some formats require special information to be able to generate actual
-binaries.  If the specific format you are interested in is not listed in
-this section, then there is nothing special you need to know about to create
-a final binary.</P
-><DIV
-CLASS="SECTION"
-><H2
-CLASS="SECTION"
-><A
-NAME="AEN928"
->4.4.1. OS9 Modules</A
-></H2
-><P
->OS9 modules need to embed several items into the module header. These
-items are the type of module, the langauge of the module, the module
-attributes, the module revision number, the data size (bss), and the
-execution offset.  These are all either calculated or default to reasonable
-values.</P
-><P
->The data size is calcuated as the sum of all sections named "bss" or
-".bss" in all object files that are linked together.</P
-><P
->The execution offset is calculated from the address of the special
-symbol "__start" which must be an exported (external) symbol in one of the
-objects to be linked.</P
-><P
->The type defaults to "Prgrm" or "Program module". The language
-defaults to "Objct" or "6809 object code".  Attributes default to enabling
-the re-entrant flag.  And finally, the revision defaults to zero.</P
-><P
->The embedded module name is the output filename. If the output
-filename includes more than just the filename, this will probably not be
-what you want.</P
-><P
->The type, language, attributes, revision, and module name can all be
-overridden by providing a special section in exactly one of the object files
-to be linked.  This section is called "__os9" (note the two underscores).
-To override the type, language, attributes, or revision values, define a
-non-exported symbol in this section called "type", "lang", "attr", or "rev"
-respectively.  Any other symbols defined are ignored.  To override the
-module name, include as the only actual code in the section a NUL terminated
-string (the FCN directive is useful for this).  If there is no code in the
-section or it beings with a NUL, the default name will be used.  Any of the
-preceeding that are not defined in the special section will retain their
-default values.</P
-><P
->The built-in link script for OS9 modules will place the following
-sections, in order, in the module: "code", ".text", "data", ".data".  It
-will merge all sections with the name "bss" or ".bss" into the "data"
-section.  All other section names are ignored.  What this means is that you
-must define your data variables in the a section called "bss" or ".bss" even
-though you will be refencing them all as offsets from U.  This does have the
-unpleasant side effect that all BSS references will end up being 16 bit
-offsets because the assembler cannot know what the offset will be once the
-linker is finished its work.  Thus, if the tightest possible code is
-required, having LWASM directly output the module is a better choice.</P
-><P
->While the built-in link script is probably sufficient for most
-purposes, you can provide your own script.  If you provide a custom link
-script, you must start your code and data sections at location 000D to
-accommodate the module header.  Otherwise, you will have an incorrect
-location for the execution offset.  You must use the ENTRY directive in the
-script to define the entry point for the module.</P
-><P
->It should also be obvious from the above that you cannot mix the bss
-(rmb) definitions with the module code when linking separately.  Those
-familiar with typical module creation will probably find this an unpleasant
-difference but it is unavoidable.</P
-><P
->It should also be noted that direct page references should also be
-avoided because you cannot know ahead of time whether the linker is going to
-end up putting a particular variable in the first 256 bytes of the module's
-data space.  If, however, you know for certain you will have less than 256
-bytes of defined data space across all of the object files that will be
-linked, you can instead use forced DP addressing for your data addresses
-instead of the ,u notation.  When linking with 3rd party libraries, this
-practice should be avoided.  Also, when creating libraries, always use the
-offset from U technique.</P
-></DIV
-></DIV
-><DIV
-CLASS="NAVFOOTER"
-><HR
-ALIGN="LEFT"
-WIDTH="100%"><TABLE
-SUMMARY="Footer navigation table"
-WIDTH="100%"
-BORDER="0"
-CELLPADDING="0"
-CELLSPACING="0"
-><TR
-><TD
-WIDTH="33%"
-ALIGN="left"
-VALIGN="top"
-><A
-HREF="x859.html"
-ACCESSKEY="P"
->Prev</A
-></TD
-><TD
-WIDTH="34%"
-ALIGN="center"
-VALIGN="top"
-><A
-HREF="index.html"
-ACCESSKEY="H"
->Home</A
-></TD
-><TD
-WIDTH="33%"
-ALIGN="right"
-VALIGN="top"
-><A
-HREF="c940.html"
-ACCESSKEY="N"
->Next</A
-></TD
-></TR
-><TR
-><TD
-WIDTH="33%"
-ALIGN="left"
-VALIGN="top"
->Linking Scripts</TD
-><TD
-WIDTH="34%"
-ALIGN="center"
-VALIGN="top"
-><A
-HREF="c745.html"
-ACCESSKEY="U"
->Up</A
-></TD
-><TD
-WIDTH="33%"
-ALIGN="right"
-VALIGN="top"
->Libraries and LWAR</TD
-></TR
-></TABLE
-></DIV
-></BODY
-></HTML
->
\ No newline at end of file
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/docs/manual/x986.html	Wed Jul 15 19:54:57 2015 -0600
@@ -0,0 +1,224 @@
+<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN""http://www.w3.org/TR/html4/loose.dtd">
+<HTML
+><HEAD
+><TITLE
+>Format Specific Linking Notes</TITLE
+><META
+NAME="GENERATOR"
+CONTENT="Modular DocBook HTML Stylesheet Version 1.79"><LINK
+REL="HOME"
+TITLE="LW Tool Chain"
+HREF="index.html"><LINK
+REL="UP"
+TITLE="LWLINK"
+HREF="c806.html"><LINK
+REL="PREVIOUS"
+TITLE="Linking Scripts"
+HREF="x920.html"><LINK
+REL="NEXT"
+TITLE="Libraries and LWAR"
+HREF="c1001.html"></HEAD
+><BODY
+CLASS="SECTION"
+BGCOLOR="#FFFFFF"
+TEXT="#000000"
+LINK="#0000FF"
+VLINK="#840084"
+ALINK="#0000FF"
+><DIV
+CLASS="NAVHEADER"
+><TABLE
+SUMMARY="Header navigation table"
+WIDTH="100%"
+BORDER="0"
+CELLPADDING="0"
+CELLSPACING="0"
+><TR
+><TH
+COLSPAN="3"
+ALIGN="center"
+>LW Tool Chain</TH
+></TR
+><TR
+><TD
+WIDTH="10%"
+ALIGN="left"
+VALIGN="bottom"
+><A
+HREF="x920.html"
+ACCESSKEY="P"
+>Prev</A
+></TD
+><TD
+WIDTH="80%"
+ALIGN="center"
+VALIGN="bottom"
+>Chapter 4. LWLINK</TD
+><TD
+WIDTH="10%"
+ALIGN="right"
+VALIGN="bottom"
+><A
+HREF="c1001.html"
+ACCESSKEY="N"
+>Next</A
+></TD
+></TR
+></TABLE
+><HR
+ALIGN="LEFT"
+WIDTH="100%"></DIV
+><DIV
+CLASS="SECTION"
+><H1
+CLASS="SECTION"
+><A
+NAME="AEN986"
+>4.4. Format Specific Linking Notes</A
+></H1
+><P
+>Some formats require special information to be able to generate actual
+binaries.  If the specific format you are interested in is not listed in
+this section, then there is nothing special you need to know about to create
+a final binary.</P
+><DIV
+CLASS="SECTION"
+><H2
+CLASS="SECTION"
+><A
+NAME="AEN989"
+>4.4.1. OS9 Modules</A
+></H2
+><P
+>OS9 modules need to embed several items into the module header. These
+items are the type of module, the langauge of the module, the module
+attributes, the module revision number, the data size (bss), and the
+execution offset.  These are all either calculated or default to reasonable
+values.</P
+><P
+>The data size is calcuated as the sum of all sections named "bss" or
+".bss" in all object files that are linked together.</P
+><P
+>The execution offset is calculated from the address of the special
+symbol "__start" which must be an exported (external) symbol in one of the
+objects to be linked.</P
+><P
+>The type defaults to "Prgrm" or "Program module". The language
+defaults to "Objct" or "6809 object code".  Attributes default to enabling
+the re-entrant flag.  And finally, the revision defaults to zero.</P
+><P
+>The embedded module name is the output filename. If the output
+filename includes more than just the filename, this will probably not be
+what you want.</P
+><P
+>The type, language, attributes, revision, and module name can all be
+overridden by providing a special section in exactly one of the object files
+to be linked.  This section is called "__os9" (note the two underscores).
+To override the type, language, attributes, or revision values, define a
+non-exported symbol in this section called "type", "lang", "attr", or "rev"
+respectively.  Any other symbols defined are ignored.  To override the
+module name, include as the only actual code in the section a NUL terminated
+string (the FCN directive is useful for this).  If there is no code in the
+section or it beings with a NUL, the default name will be used.  Any of the
+preceeding that are not defined in the special section will retain their
+default values.</P
+><P
+>The built-in link script for OS9 modules will place the following
+sections, in order, in the module: "code", ".text", "data", ".data".  It
+will merge all sections with the name "bss" or ".bss" into the "data"
+section.  All other section names are ignored.  What this means is that you
+must define your data variables in the a section called "bss" or ".bss" even
+though you will be refencing them all as offsets from U.  This does have the
+unpleasant side effect that all BSS references will end up being 16 bit
+offsets because the assembler cannot know what the offset will be once the
+linker is finished its work.  Thus, if the tightest possible code is
+required, having LWASM directly output the module is a better choice.</P
+><P
+>While the built-in link script is probably sufficient for most
+purposes, you can provide your own script.  If you provide a custom link
+script, you must start your code and data sections at location 000D to
+accommodate the module header.  Otherwise, you will have an incorrect
+location for the execution offset.  You must use the ENTRY directive in the
+script to define the entry point for the module.</P
+><P
+>It should also be obvious from the above that you cannot mix the bss
+(rmb) definitions with the module code when linking separately.  Those
+familiar with typical module creation will probably find this an unpleasant
+difference but it is unavoidable.</P
+><P
+>It should also be noted that direct page references should also be
+avoided because you cannot know ahead of time whether the linker is going to
+end up putting a particular variable in the first 256 bytes of the module's
+data space.  If, however, you know for certain you will have less than 256
+bytes of defined data space across all of the object files that will be
+linked, you can instead use forced DP addressing for your data addresses
+instead of the ,u notation.  When linking with 3rd party libraries, this
+practice should be avoided.  Also, when creating libraries, always use the
+offset from U technique.</P
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