333 lines
10 KiB
Groff
333 lines
10 KiB
Groff
.\" $Header$
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.tr ~
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.TH UNI_ASS VI
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.ad
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.SH NAME
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uni_ass \- universal assembler/loader
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.SH SYNOPSIS
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/usr/em/lib/\fImachine\fP_as [options] argument ...
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.SH DESCRIPTION
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The universal assembler is a framework allowing easy
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generation of an assembler for any byte oriented machine.
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The framework includes common pseudo instructions for name
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definition, label usage, storage allocation and initialization
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and expression evaluation.
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The resulting program assembles and links assembly modules.
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Arguments may be flags, assembly language modules or libraries.
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.br
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Flags are:
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.IP -d[\fIn\fP]
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Produce a listing on standard output, the octal number
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\fIn\fP is mainly used for debugging purposes.
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The default is 700. 500 and 600 give slightly different
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listings.
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.IP -s[\fIn\fP]
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Produce a human-readable symbol table on standard output.
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The default for \fIn\fP is 3.
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The value 2 causes a listing of only the symbols internal to
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the modules.
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The value 1 causes a listing of external symbols only.
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.IP -o
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The argument following this flag is taken as the name of the
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resulting load file.
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The default name is \fBa.out\fP.
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.PD
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.PP
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The assemblers assemble
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and link together assembly language modules
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machine
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from files and libraries,
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producing an a.out file.
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.PP
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Two different types of arguments are allowed:
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.IP "1-"
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Assembly language modules
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.PD 0
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.IP "2-"
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UNIX archives, as maintained by arch(I). These archives must
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only contain
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assembly language modules with \fI.define\fP as their first
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statement.
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.PD
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.PP
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Note that it is not possible to do a partial load;
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loading starts from assembly language and produces binary
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machine code. No symbol table and no relocation bits are produced.
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.SH "SEGMENTS and TYPES"
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The statements allocating and initializing space,
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like instructions and
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some pseudo-instruction reserve that space in the current
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segment.
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The currently reigning type of segment is determined by
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one of the pseudo-instructions: \fI.text, .data, .bss\fP and
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\&\fI.org\fP.
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The assembler concatenates all space allocated in each of the
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text, data and bss segments.
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That is: every byte in a text segment is followed by another
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byte in the text segment except the last, of which there is
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only one in each program.
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The org segment differs from the other three in the sense that
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the assembler makes no attempt to concatenate pieces of org
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segments.
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Each \fI.org\fP pseudo-instruction has a parameter telling where it
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should start allocating space.
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In the final stages of the assembly the text, data and bss
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segments are concatenated in that order after the length of
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each segment has been made a multiple of a machine dependent
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constant.
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The first segment (text) starts at the location that is given
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as an argument to the .base pseudo-instruction.
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The default is 0.
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.sp
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The labels defined in a particular segment
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have the type of that
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segment, other types are: \fIundefined\fP and \fIabsolute\fP.
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All variables that do not have a value have the type
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\fIundefined\fP, a good example is an unsatisfied external
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reference.
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Numbers have the type \fIabsolute\fP.
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The type of expressions depends on both the operators and the
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operands used.
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Generally, but not always, the following rule holds: whenever
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one of the operands is absolute and the resulting type is that
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of the other operand.
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Not every operation is allowed on every combination of types,
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for example: it is not allowed to add two \fItext\fP values.
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.SH SYNTAX
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.IP letters
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Both upper and lower case may be used and are seen as
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different.
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The underscore '_' is considered to be a letter.
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.IP identifiers
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Identifiers are a sequence of letters and digits, starting with
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a letter or a period '.'.
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Only the first eight characters are remembered by the
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assemblers, identifiers with the same first eight characters
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are considered to be identical.
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Identifiers can, only once, receive a value through assignment or a
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label definition.
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.IP "local labels"
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Local labels consist of a single digit.
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They can only be defined in the label part of a statement and
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used anywhere an identifier is allowed.
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They can be redefined at will.
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Two forms of use exist: \fIf\fPorward and \fIb\fPackward
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references.
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The first consists of the digit followed by an \fIf\fP
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and refers to the first definition of that label following the
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reference.
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The second consists of the digit followed by an \fIb\fP
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and refers to the last definition of the label before the
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reference.
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.IP strings
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Strings are enclosed in single "'" or double """ quotes.
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The use of \eddd where ddd is an octal number and \en, \er,
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\et, \eb and \ef is allowed and has the same meaning as in the
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C language.
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.IP numbers
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Numbers are a sequence of letters and digits, starting with a
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digit.
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No difference is made between small and capital letters.
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.br
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The base of the number is determined in the following way:
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.nf
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if the number ends with an 'h' it is hexadecimal else
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if the number starts with '0x' it is hexadecimal else
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if the number starts with '0' it is octal else
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it's decimal.
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.fi
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Note that the number \fI0x10h\fP is an illegal hexadecimal number,
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because \fIx\fP is an illegal hexadecimal digit.
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The number should be written as \fI0x10\fP or \fI10h\fP.
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The range of numbers depends on the machine.
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A rule of the thumb is that the width of the machine's registers
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the same is as the number of bits allowed in numbers.
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.IP expressions
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The following operators are recognized:
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.nf
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.sp 1
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op type action
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| binary bitwise or
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& binary bitwise and
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^ binary bitwise exclusive or
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+ binary two's complement addition
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+ unary no effect
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- binary two's complement subtraction
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- unary two's complement negation
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* binary two's complement multiplication
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/ binary two's complement division
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% binary two's complement remainder
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.tr ~~
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~ unary one's complement negation
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.tr ~
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.sp 1
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.fi
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The operator precedence is the same as in C.
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.br
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The operands allowed are: identifiers, numbers and expressions.
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The evaluation order can be changed using the brackets '[' and
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\&']'.
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.sp
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.IP comment
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The character '!' denotes the start of comment, every character
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up to the next newline is skipped.
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Exclamation marks in strings are not recognized as the start of
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comment.
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.IP statements
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Statements are separated by newlines and ';' and can be
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preceded by label definitions.
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Label definitions have the form "\fIidentifier\fP~:" or
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"\fIdigit\fP~:".
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Statements can be: empty, an assignment, an instruction or a
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pseudo-instruction.
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.IP assignment
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An assignment has the form:
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.br
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\fIidentifier\fP = \fIexpression\fP
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.br
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The identifier receives the value and type of the expression.
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.IP instruction
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The syntax of an instruction depends on the type of the target
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machine.
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An example of a assembly file is presented at
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the end of the document.
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.IP pseudo-instruction
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.de Pu
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.sp 1
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.ti +5
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\&\\$1
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.sp 1
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..
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.Pu ".extern \fIidentifier [, identifier]*\fP"
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The identifiers mentioned in the list are exported and can be
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used in other modules.
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.Pu ".define \fIidentifier [, identifier]*\fP"
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Used for modules that are to be part of a libary.
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The .define pseudo's should be the first in such modules.
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When scanning a module in a library the univeral assembler
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checks whether any of its unsatified external references is
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mentioned in a .define list. If so, it includes that module in
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the program.
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The identifiers mentioned in the list are exported and can be
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used in other modules.
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.Pu ".byte \fIexpression [, expression]*\fP"
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Initialize a sequence of bytes.
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This is not followed by automatic alignment.
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.Pu ".short \fIexpression [, expression]*\fP"
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Initialize a sequence of shorts (2-byte values).
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This is not followed by automatic alignment.
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.Pu ".long \fIexpression [, expression]*\fP"
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Initialize a sequence of longs (4-byte values).
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This is not followed by automatic alignment.
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.Pu ".word \fIexpression [, expression]*\fP"
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Initialize a sequence of words. The number of bytes occupied by
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a word depends on the target machine.
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This is not followed by automatic alignment.
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.Pu ".ascii \fIstring\fP"
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Initialize a sequence of bytes with the value of the bytes in
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the string.
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This is not followed by automatic alignment.
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.Pu ".asciz \fIstring\fP"
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Initialize a sequence of bytes with the value of the bytes in
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the string and terminate this with an extra zero byte.
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This is not followed by automatic alignment.
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.Pu ".align [\fIexpression\fP]"
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Adjust the current position to a multiple of the value of the
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expression.
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The default is the word-size of the target machine.
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.Pu ".space \fIexpression\fP"
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Allocate the indicated amount of bytes.
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The expression must be absolute.
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.Pu ".org \fIexpression\fP"
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Start an org segment with the location counter at the indicated
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value.
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The value of the expression must be absolute.
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.Pu ".text"
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.Pu ".data"
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.Pu ".bss"
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Start an segment of the indicated type.
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.Pu ".base \fIexpresssion\fP"
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Set the starting address of the first of the consecutive segments
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(text) to the value of the expression.
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The expression must be absolute.
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.Pu ".errnz \fIexpression\fP"
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Stop with a fatal error message when the value of the
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expression is non-zero.
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.SH "SEE ALSO"
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ack(I), arch(I), a.out(V)
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.SH "EXAMPLE"
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An example of INtel 8086 assembly code.
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.sp 2
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.nf
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.ta 8n 16n 32n 40n 48n 56n 64n
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.define begbss
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.define hol0,.diverr,.reghp
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.define EIDIVZ
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EIDIVZ = 6
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base = 0x01C0
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topmem = 0xFFF0
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.org topmem-16
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.extern __n_line
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maxmem:
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__n_line:
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.space 16
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.errnz __n_line-0xFFE0
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.base base
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.text
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cld
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xor ax,ax
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mov (2),cs
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mov (0),.diverr
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mov sp,maxmem
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mov di,begbss
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mov cx,[[endbss-begbss]/2]&0x7FFF
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! xor ax,ax ! ax still is 0
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rep stos
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mov ax,1
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push ax
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call _start
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3:
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jmp 3b
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.diverr:
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push ax
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mov ax,EIDIVZ
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call .error
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pop ax
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iret
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cmp 0,4(bx)(di) ! just to show this addr. mode
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.data
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begdata:
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hol0:
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.word 0,0
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.word 0,0
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.word 3f
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.reghp:
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.word endbss
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3:
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.asciz "PROGRAM"
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.sp 3
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.fi
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.SH DIAGNOSTICS
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Various diagnostics may be produced.
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The most likely errors, however, are unresolved references,
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probably caused by the omission of a library argument.
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.SH BUGS
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The resulting a.out file contains no information about the size
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and starting address of the segments.
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.br
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The resulting a.out file does not contain a symbol table.
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.br
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The alignment might give rise to internal assertion errors when
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the alignment requestes is larger than the machine dependent
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segment alignment.
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.br
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Identifiers declared as externals cannot be used as locals in
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any following module.
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