802 lines
26 KiB
Plaintext
802 lines
26 KiB
Plaintext
.bp
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.P1 "EM ASSEMBLY LANGUAGE"
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.PP
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We use two representations for assembly language programs,
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one is in ASCII and the other is the compact assembly language.
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The latter needs less space than the first for the same program
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and therefore allows faster processing.
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Our only program accepting ASCII assembly
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language converts it to the compact form.
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All other programs expect compact assembly input.
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The first part of the chapter describes the ASCII assembly
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language and its semantics.
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The second part describes the syntax of the compact assembly
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language.
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The last part lists the EM instructions with the type of
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arguments allowed and an indication of the function.
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Appendix A gives a detailed description of the effect of all
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instructions in the form of a Pascal program.
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.P2 "ASCII assembly language"
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.PP
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An assembly language program consists of a series of lines, each
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line may be blank, contain one (pseudo)instruction or contain one
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label.
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Input to the assembler is in lower case.
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Upper case is used in this
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document merely to distinguish keywords from the surrounding prose.
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Comment is allowed at the end of each line and starts with a semicolon ";".
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This kind of comment does not exist in the compact form.
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.QQ
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Labels must be placed all by themselves on a line and start in
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column 1.
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There are two kinds of labels, instruction and data labels.
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Instruction labels are unsigned positive integers.
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The scope of an instruction label is its procedure.
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.QQ
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The pseudoinstructions CON, ROM and BSS may be preceded by a
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line containing a character based data label, the first character of which is a
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letter, period or underscore.
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The period may only be followed by
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digits, the others may be followed by letters, digits and underscores.
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The use of the character "." followed by a constant,
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which must be in the range 1 to 32767 (e.g. ".40") is recommended
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for compiler
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generated programs.
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These labels are considered as a special case and handled
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more efficiently in compact assembly language (see below).
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Note that a data label on its own or two consecutive labels are not
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allowed.
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.PP
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Each statement may contain an instruction mnemonic or pseudoinstruction.
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These must begin in column 2 or later (not column 1) and must be followed
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by a space, tab, semicolon or LF.
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Everything on the line following a semicolon is
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taken as a comment.
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.PP
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Each input file contains one module.
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A module may contain many procedures,
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which may be nested.
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A procedure consists of
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a PRO statement, a (possibly empty)
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collection of instructions and pseudoinstructions and finally an END
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statement.
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Pseudoinstructions are also allowed between procedures.
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They do not belong to a specific procedure.
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.PP
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All constants in EM are interpreted in the decimal base.
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The ASCII assembly language accepts constant expressions
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wherever constants are allowed.
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The operators recognized are: +, \-, *, % and / with the usual
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precedence order.
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Use of the parentheses ( and ) to alter the precedence order is allowed.
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.P3 "Instruction arguments"
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.PP
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Unlike many other assembly languages, the EM assembly
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language requires all arguments of normal and pseudoinstructions
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to be either a constant or an identifier, but not a combination
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of these two.
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There is one exception to this rule: when a data label is used
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for initialization or as an instruction argument,
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expressions of the form 'label+constant' and 'label-constant'
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are allowed.
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This makes it possible to address, for example, the
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third word of a ten word BSS block
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directly.
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Thus LOE LABEL+4 is permitted and so is CON LABEL+3.
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The resulting address is must be in the same fragment as the label.
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It is not allowed to add or subtract from instruction labels or procedure
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identifiers,
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which certainly is not a severe restriction and greatly aids
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optimization.
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.PP
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Instruction arguments can be constants,
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data labels, data labels offsetted by a constant, instruction
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labels and procedure identifiers.
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The range of integers allowed depends on the instruction.
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Most instructions allow only integers
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(signed or unsigned)
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that fit in a word.
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Arguments used as offsets to pointers should fit in a
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pointer-sized integer.
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Finally, arguments to LDC should fit in a double-word integer.
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.PP
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Several instructions have two possible forms:
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with an explicit argument and with an implicit argument on top of the stack.
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The size of the implicit argument is the wordsize.
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The implicit argument is always popped before all other operands.
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For example: 'CMI 4' specifies that two four-byte signed
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integers on top of the stack are to be compared.
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\&'CMI' without an argument expects a wordsized integer
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on top of the stack that specifies the size of the integers to
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be compared.
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Thus the following two sequences are equivalent:
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.KS
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.TS
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center, tab(:) ;
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l r 30 l r.
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LDL:\-10:LDL:\-10
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LDL:\-14:LDL:\-14
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::LOC:4
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CMI:4:CMI:
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ZEQ:*1:ZEQ:*1
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.TE
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.KE
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Section 11.1.6 shows the arguments allowed for each instruction.
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.P3 "Pseudoinstruction arguments"
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.PP
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Pseudoinstruction arguments can be divided in two classes:
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Initializers and others.
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The following initializers are allowed: signed integer constants,
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unsigned integer constants, floating-point constants, strings,
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data labels, data labels offsetted by a constant, instruction
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labels and procedure identifiers.
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.PP
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Constant initializers in BSS, HOL, CON and ROM pseudoinstructions
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can be followed by a letter I, U or F.
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This indicator
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specifies the type of the initializer: Integer, Unsigned or Float.
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If no indicator is present I is assumed.
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The size of the initializer is the wordsize unless
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the indicator is followed by an integer specifying the
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initializer's size.
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This integer is governed by the same restrictions as for
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transfer of objects to/from memory.
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As in instruction arguments, initializers include expressions of the form:
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\&"LABEL+offset" and "LABEL\-offset".
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The offset must be an unsigned decimal constant.
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The 'IUF' indicators cannot be used in the offsets.
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.PP
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Data labels are referred to by their name.
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.PP
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Strings are surrounded by double quotes (").
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Semicolon's in string do not indicate the start of comment.
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In the ASCII representation the escape character \e (backslash)
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alters the meaning of subsequent character(s).
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This feature allows inclusion of zeroes, graphic characters and
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the double quote in the string.
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The following escape sequences exist:
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.TS
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center, tab(:);
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l l l.
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newline:NL\|(LF):\en
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horizontal tab:HT:\et
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backspace:BS:\eb
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carriage return:CR:\er
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form feed:FF:\ef
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backslash:\e:\e\e
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double quote:":\e"
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bit pattern:\fBddd\fP:\e\fBddd\fP
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.TE
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The escape \fB\eddd\fP consists of the backslash followed by 1,
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2, or 3 octal digits specifying the value of
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the desired character.
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If the character following a backslash is not one of those
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specified,
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the backslash is ignored.
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Example: CON "hello\e012\e0".
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Each string element initializes a single byte.
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The ASCII character set is used to map characters onto values.
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.PP
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Instruction labels are referred to as *1, *2, etc. in both branch
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instructions and as initializers.
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.PP
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The notation $procname means the identifier for the procedure
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with the specified name.
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This identifier has the size of a pointer.
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.P3 Notation
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.PP
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First, the notation used for the arguments, classes of
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instructions and pseudoinstructions.
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.DS
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.TS
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tab(:);
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l l l.
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<cst>:\&=:integer constant (current range \-2**31..2**31\-1)
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<dlb>:\&=:data label
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<arg>:\&=:<cst> or <dlb> or <dlb>+<cst> or <dlb>\-<cst>
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<con>:\&=:integer constant, unsigned constant, floating-point constant
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<str>:\&=:string constant (surrounded by double quotes),
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<ilb>:\&=:instruction label
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::'*' followed by an integer in the range 0..32767.
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<pro>:\&=:procedure number ('$' followed by a procedure name)
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<val>:\&=:<arg>, <con>, <str>, <pro> or <ilb>.
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<par>:\&=:<val> or <str>
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<...>*:\&=:zero or more of <...>
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<...>+:\&=:one or more of <...>
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[...]:\&=:optional ...
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.TE
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.DE
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.P3 "Pseudoinstructions"
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.P4 "Storage declaration"
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.PP
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Initialized global data is allocated by the pseudoinstruction CON,
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which needs at least one argument.
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Each argument is used to allocate and initialize a number of
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consecutive bytes in data memory.
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The number of bytes to be allocated and the alignment depend on the type
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of the argument.
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For each argument, an integral number of words,
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determined by the argument type, is allocated and initialized.
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.PP
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The pseudoinstruction ROM is the same as CON,
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except that it guarantees that the initialized words
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will not change during the execution of the program.
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This information allows optimizers to do
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certain calculations such as array indexing and
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subrange checking at compile time instead
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of at run time.
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.PP
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The pseudoinstruction BSS allocates
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uninitialized global data or large blocks of data initialized
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by the same value.
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The first argument to this pseudo is the number
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of bytes required, which must be a multiple of the wordsize.
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The other arguments specify the value used for initialization and
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whether the initialization is only for convenience or a strict necessity.
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The pseudoinstruction HOL is similar to BSS in that it requests an
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(un)initialized global data block.
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Addressing of a HOL block, however, is quasi absolute.
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The first byte is addressed by 0,
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the second byte by 1 etc. in assembly language.
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The assembler/loader adds the base address of
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the HOL block to these numbers to obtain the
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absolute address in the machine language.
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.PP
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The scope of a HOL block starts at the HOL pseudo and
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ends at the next HOL pseudo or at the end of a module
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whatever comes first.
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Each instruction falls in the scope of at most one
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HOL block, the current HOL block.
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It is not allowed to have more than one HOL block per procedure.
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.PP
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The alignment restrictions are enforced by the
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pseudoinstructions.
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All initializers are aligned on a multiple of their size or the wordsize
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whichever is smaller.
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Strings form an exception, they are to be seen as a sequence of initializers
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each for one byte, i.e. strings are not padded with zero bytes.
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Switching to another type of fragment or placing a label forces
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word-alignment.
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There are three types of fragments in global data space: CON, ROM and
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BSS/HOL.
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.IP "BSS <cst1>,<val>,<cst2>"
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.br
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Reserve <cst1> bytes.
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<val> is the value used to initialize the area.
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<cst1> must be a multiple of the size of <val>.
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<cst2> is 0 if the initialization is not strictly necessary,
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1 if it is.
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.IP "HOL <cst1>,<val>,<cst2>"
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.br
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Idem, but all following absolute global data references will
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refer to this block.
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Only one HOL is allowed per procedure,
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it has to be placed before the first instruction.
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.IP "CON <val>+"
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.br
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Assemble global data words initialized with the <val> constants.
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.IP "ROM <val>+"
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.br
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Idem, but the initialized data will never be changed by the program.
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.P4 "Partitioning"
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.PP
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Two pseudoinstructions partition the input into procedures:
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.IP "PRO <pro>[,<cst>]"
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.br
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Start of procedure.
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<pro> is the procedure name.
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<cst> is the number of bytes for locals.
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The number of bytes for locals must be specified in the PRO or
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END pseudoinstruction.
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When specified in both, they must be identical.
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.IP "END [<cst>]"
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.br
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End of Procedure.
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<cst> is the number of bytes for locals.
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The number of bytes for locals must be specified in either the PRO or
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END pseudoinstruction or both.
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.P4 "Visibility"
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.PP
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Names of data and procedures in an EM module can either be
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internal or external.
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External names are known outside the module and are used to link
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several pieces of a program.
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Internal names are not known outside the modules they are used in.
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Other modules will not 'see' an internal name.
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.QQ
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To reduce the number of passes needed,
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it must be known at the first occurrence whether
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a name is internal or external.
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If the first occurrence of a name is in a definition,
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the name is considered to be internal.
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If the first occurrence of a name is a reference,
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the name is considered to be external.
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If the first occurrence is in one of the following pseudoinstructions,
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the effect of the pseudo has precedence.
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.IP "EXA <dlb>"
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.br
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External name.
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<dlb> is known, possibly defined, outside this module.
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Note that <dlb> may be defined in the same module.
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.IP "EXP <pro>"
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.br
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External procedure identifier.
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Note that <pro> may be defined in the same module.
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.IP "INA <dlb>"
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.br
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Internal name.
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<dlb> is internal to this module and must be defined in this module.
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.IP "INP <pro>"
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.br
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Internal procedure.
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<pro> is internal to this module and must be defined in this module.
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.P4 "Miscellaneous"
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.PP
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Two other pseudoinstructions provide miscellaneous features:
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.IP "EXC <cst1>,<cst2>"
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.br
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Two blocks of instructions preceding this one are
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interchanged before being processed.
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<cst1> gives the number of lines of the first block.
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<cst2> gives the number of lines of the second one.
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Blank and pure comment lines do not count.
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This instruction is obsolete. Its use is strongly discouraged.
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.IP "MES <cst>[,<par>]*"
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.br
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A special type of comment.
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Used by compilers to communicate with the
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optimizer, assembler, etc. as follows:
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.RS
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.IP "MES 0"
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.br
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An error has occurred, stop further processing.
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.IP "MES 1"
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.br
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Suppress optimization.
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.IP "MES 2,<cst1>,<cst2>"
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.br
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Use wordsize <cst1> and pointer size <cst2>.
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.IP "MES 3,<cst1>,<cst2>,<cst3>,<cst4>"
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.br
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Indicates that a local variable is never referenced indirectly.
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Used to indicate that a register may be used for a specific
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variable.
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<cst1> is offset in bytes from AB if positive
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and offset from LB if negative.
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<cst2> gives the size of the variable.
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<cst3> indicates the class of the variable.
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The following values are currently recognized:
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.br
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0\0\0\0The variable can be used for anything.
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.br
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1\0\0\0The variable is used as a loopindex.
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.br
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2\0\0\0The variable is used as a pointer.
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.br
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3\0\0\0The variable is used as a floating point number.
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.br
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<cst4> gives the priority of the variable,
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higher numbers indicate better candidates.
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.IP "MES 4,<cst>,<str>"
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.br
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Number of source lines in file <str> (for profiler).
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.IP "MES 5"
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.br
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Floating point used.
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.IP "MES 6,<val>*"
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.br
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Comment. Used to provide comments in compact assembly language.
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.IP "MES 7,....."
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.br
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Reserved.
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.IP "MES 8,<pro>[,<dlb>]..."
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.br
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Library module. Indicates that the module may only be loaded
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if it is useful, that is, if it can satisfy any unresolved
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references during the loading process.
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May not be preceded by any other pseudo, except MES's.
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.IP "MES 9,<cst>"
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.br
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Guarantees that no more than <cst> bytes of parameters are
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accessed, either directly or indirectly.
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.IP "MES 10,<cst>[,<par>]*
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.br
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This message number is reserved for the global optimizer.
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It inserts these messages in its output as hints to backends.
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<cst> indicates the type of hint.
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.IP "MES 11"
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.br
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Procedures containing this message are possible destinations of
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non-local goto's with the GTO instruction.
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Some backends keep locals in registers,
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the locals in this procedure should not be kept in registers and
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all registers containing locals of other procedures should be
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saved upon entry to this procedure.
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.RE
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.IP ""
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Each backend is free to skip irrelevant MES pseudos.
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.P2 "The Compact Assembly Language"
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.PP
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The assembler accepts input in a highly encoded form.
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This
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form is intended to reduce the amount of file transport between the
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front ends, optimizers
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and back ends, and also reduces the amount of storage required for storing
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libraries.
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Libraries are stored as archived compact assembly language, not machine
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language.
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.PP
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When beginning to read the input, the assembler is in neutral state, and
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expects either a label or an instruction (including the pseudoinstructions).
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The meaning of the next byte(s) when in neutral state is as follows, where
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b1, b2
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etc. represent the succeeding bytes.
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.TS
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tab(:);
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rw17 4 l.
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0:Reserved for future use
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1\-129:Machine instructions, see Appendix A, alphabetical list
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130\-149:Reserved for future use
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150\-161:BSS,CON,END,EXA,EXC,EXP,HOL,INA,INP,MES,PRO,ROM
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162\-179:Reserved for future pseudoinstructions
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180\-239:Instruction labels 0 \- 59 (180 is local label 0 etc.)
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240\-244:See the Common Table below
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245\-255:Not used
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.TE
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After a label, the assembler is back in neutral state; it can immediately
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accept another label or an instruction in the next byte.
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No linefeeds are used to separate lines.
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.PP
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If an opcode expects no arguments,
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the assembler is back in neutral state after
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reading the one byte containing the instruction number.
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If it has one or
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more arguments (only pseudos have more than 1), the arguments follow directly,
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encoded as follows:
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.TS
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tab(:);
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r l.
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0\-239:Offsets from \-120 to 119
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240\-255:See the Common Table below
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.TE
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Absence of an optional argument is indicated by a special
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byte.
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.TS
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tab(:);
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c s s s
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c c s c
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l4 l l4 l.
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Common Table for Neutral State and Arguments
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class:bytes:description
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<ilb>:240:b1:Instruction label b1 (Not used for branches)
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<ilb>:241:b1 b2:16 bit instruction label (256*b2 + b1)
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<dlb>:242:b1:Global label .0\-.255, with b1 being the label
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<dlb>:243:b1 b2:Global label .0\-.32767
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:::with 256*b2+b1 being the label
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<dlb>:244:<string>:Global symbol not of the form .nnn
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<cst>:245:b1 b2:16 bit constant
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<cst>:246:b1 b2 b3 b4:32 bit constant
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<cst>:247:b1 .. b8:64 bit constant
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<arg>:248:<dlb><cst>:Global label + (possibly negative) constant
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<pro>:249:<string>:Procedure name (not including $)
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<str>:250:<string>:String used in CON or ROM (no quotes-no escapes)
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<con>:251:<cst><string>:Integer constant, size <cst> bytes
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<con>:252:<cst><string>:Unsigned constant, size <cst> bytes
|
|
<con>:253:<cst><string>:Floating constant, size <cst> bytes
|
|
:254::unused
|
|
<end>:255::Delimiter for argument lists or
|
|
:::indicates absence of optional argument
|
|
.TE 1
|
|
.PP
|
|
The bytes specifying the value of a 16, 32 or 64 bit constant
|
|
are presented in two's complement notation, with the least
|
|
significant byte first. For example: the value of a 32 bit
|
|
constant is ((s4*256+b3)*256+b2)*256+b1, where s4 is b4\-256 if
|
|
b4 is greater than 128 else s4 takes the value of b4.
|
|
A <string> consists of a <cst> immediately followed by
|
|
a sequence of bytes with length <cst>.
|
|
.PP
|
|
.ne 8
|
|
The pseudoinstructions fall into several categories, depending on their
|
|
arguments:
|
|
.DS
|
|
Group 1 \- EXC, BSS, HOL have a known number of arguments
|
|
Group 2 \- EXA, EXP, INA, INP have a string as argument
|
|
Group 3 \- CON, MES, ROM have a variable number of various things
|
|
Group 4 \- END, PRO have a trailing optional argument.
|
|
.DE
|
|
Groups 1 and 2
|
|
use the encoding described above.
|
|
Group 3 also uses the encoding listed above, with an <end> byte after the
|
|
last argument to indicate the end of the list.
|
|
Group 4 uses
|
|
an <end> byte if the trailing argument is not present.
|
|
.TS
|
|
tab(|);
|
|
l s l
|
|
l s s
|
|
l 2 lw(30) l.
|
|
Example ASCII|Example compact
|
|
(LOC = 69, BRA = 18 here):
|
|
|
|
2||182
|
|
1||181
|
|
\0LOC|10|69 130
|
|
\0LOC|\-10|69 110
|
|
\0LOC|300|69 245 44 1
|
|
\0BRA|*19|18 139
|
|
300||241 44 1
|
|
.3||242 3
|
|
\0CON|4,9,*2,$foo|151 124 129 240 2 249 123 102 111 111 255
|
|
\0CON|.35|151 242 35 255
|
|
.TE
|
|
.P2 "Assembly language instruction list"
|
|
.PP
|
|
For each instruction in the list the range of argument values
|
|
in the assembly language is given.
|
|
The column headed \fIassem\fP contains the mnemonics defined
|
|
in 11.1.3.
|
|
The following column specifies restrictions of the argument
|
|
value.
|
|
Addresses have to obey the restrictions mentioned in chapter 2.
|
|
The classes of arguments
|
|
are indicated by letters:
|
|
.ds b \fBb\fP
|
|
.ds c \fBc\fP
|
|
.ds d \fBd\fP
|
|
.ds g \fBg\fP
|
|
.ds f \fBf\fP
|
|
.ds l \fBl\fP
|
|
.ds n \fBn\fP
|
|
.ds w \fBw\fP
|
|
.ds p \fBp\fP
|
|
.ds r \fBr\fP
|
|
.ds s \fBs\fP
|
|
.ds z \fBz\fP
|
|
.ds o \fBo\fP
|
|
.ds - \fB\-\fP
|
|
.sp
|
|
.TS
|
|
tab(:);
|
|
c s l l
|
|
l l 15 l l.
|
|
\fIassem\fP:constraints:rationale
|
|
|
|
\&\*c:cst:fits word:constant
|
|
\&\*d:cst:fits double word:constant
|
|
\&\*l:cst::local offset
|
|
\&\*g:arg:>= 0:global offset
|
|
\&\*f:cst::fragment offset
|
|
\&\*n:cst:>= 0:counter
|
|
\&\*s:cst:>0 , word multiple:object size
|
|
\&\*z:cst:>= 0 , zero or word multiple:object size
|
|
\&\*o:cst:> 0 , word multiple or fraction:object size
|
|
\&\*w:cst:> 0 , word multiple:object size *
|
|
\&\*p:pro::pro identifier
|
|
\&\*b:ilb:>= 0:label number
|
|
\&\*r:cst:0,1,2:register number
|
|
\&\*-:::no argument
|
|
.TE
|
|
.PP
|
|
The * at the rationale for \*w indicates that the argument
|
|
can either be given as argument or on top of the stack.
|
|
If the argument is omitted, the argument is fetched from the
|
|
stack;
|
|
it is assumed to be a wordsized unsigned integer.
|
|
Instructions that check for undefined integer or floating-point
|
|
values and underflow or overflow
|
|
are indicated below by (*).
|
|
.sp 1
|
|
.DS
|
|
.ta 12n
|
|
GROUP 1 \- LOAD
|
|
|
|
LOC \*c : Load constant (i.e. push one word onto the stack)
|
|
LDC \*d : Load double constant ( push two words )
|
|
LOL \*l : Load word at \*l-th local (\*l<0) or parameter (\*l>=0)
|
|
LOE \*g : Load external word \*g
|
|
LIL \*l : Load word pointed to by \*l-th local or parameter
|
|
LOF \*f : Load offsetted (top of stack + \*f yield address)
|
|
LAL \*l : Load address of local or parameter
|
|
LAE \*g : Load address of external
|
|
LXL \*n : Load lexical (address of LB \*n static levels back)
|
|
LXA \*n : Load lexical (address of AB \*n static levels back)
|
|
LOI \*o : Load indirect \*o bytes (address is popped from the stack)
|
|
LOS \*w : Load indirect, \*w-byte integer on top of stack gives object size
|
|
LDL \*l : Load double local or parameter (two consecutive words are stacked)
|
|
LDE \*g : Load double external (two consecutive externals are stacked)
|
|
LDF \*f : Load double offsetted (top of stack + \*f yield address)
|
|
LPI \*p : Load procedure identifier
|
|
.DE
|
|
|
|
.DS
|
|
GROUP 2 \- STORE
|
|
|
|
STL \*l : Store local or parameter
|
|
STE \*g : Store external
|
|
SIL \*l : Store into word pointed to by \*l-th local or parameter
|
|
STF \*f : Store offsetted
|
|
STI \*o : Store indirect \*o bytes (pop address, then data)
|
|
STS \*w : Store indirect, \*w-byte integer on top of stack gives object size
|
|
SDL \*l : Store double local or parameter
|
|
SDE \*g : Store double external
|
|
SDF \*f : Store double offsetted
|
|
.DE
|
|
|
|
.DS
|
|
GROUP 3 \- INTEGER ARITHMETIC
|
|
|
|
ADI \*w : Addition (*)
|
|
SBI \*w : Subtraction (*)
|
|
MLI \*w : Multiplication (*)
|
|
DVI \*w : Division (*)
|
|
RMI \*w : Remainder (*)
|
|
NGI \*w : Negate (two's complement) (*)
|
|
SLI \*w : Shift left (*)
|
|
SRI \*w : Shift right (*)
|
|
.DE
|
|
|
|
.DS
|
|
GROUP 4 \- UNSIGNED ARITHMETIC
|
|
|
|
ADU \*w : Addition
|
|
SBU \*w : Subtraction
|
|
MLU \*w : Multiplication
|
|
DVU \*w : Division
|
|
RMU \*w : Remainder
|
|
SLU \*w : Shift left
|
|
SRU \*w : Shift right
|
|
.DE
|
|
|
|
.DS
|
|
GROUP 5 \- FLOATING POINT ARITHMETIC
|
|
|
|
ADF \*w : Floating add (*)
|
|
SBF \*w : Floating subtract (*)
|
|
MLF \*w : Floating multiply (*)
|
|
DVF \*w : Floating divide (*)
|
|
NGF \*w : Floating negate (*)
|
|
FIF \*w : Floating multiply and split integer and fraction part (*)
|
|
FEF \*w : Split floating number in exponent and fraction part (*)
|
|
.DE
|
|
|
|
.DS
|
|
GROUP 6 \- POINTER ARITHMETIC
|
|
|
|
ADP \*f : Add \*f to pointer on top of stack
|
|
ADS \*w : Add \*w-byte value and pointer
|
|
SBS \*w : Subtract pointers in same fragment and push diff as size \*w integer
|
|
.DE
|
|
|
|
.DS
|
|
GROUP 7 \- INCREMENT/DECREMENT/ZERO
|
|
|
|
INC \*- : Increment word on top of stack by 1 (*)
|
|
INL \*l : Increment local or parameter (*)
|
|
INE \*g : Increment external (*)
|
|
DEC \*- : Decrement word on top of stack by 1 (*)
|
|
DEL \*l : Decrement local or parameter (*)
|
|
DEE \*g : Decrement external (*)
|
|
ZRL \*l : Zero local or parameter
|
|
ZRE \*g : Zero external
|
|
ZRF \*w : Load a floating zero of size \*w
|
|
ZER \*w : Load \*w zero bytes
|
|
.DE
|
|
|
|
.DS
|
|
GROUP 8 \- CONVERT (stack: source, source size, dest. size (top))
|
|
|
|
CII \*- : Convert integer to integer (*)
|
|
CUI \*- : Convert unsigned to integer (*)
|
|
CFI \*- : Convert floating to integer (*)
|
|
CIF \*- : Convert integer to floating (*)
|
|
CUF \*- : Convert unsigned to floating (*)
|
|
CFF \*- : Convert floating to floating (*)
|
|
CIU \*- : Convert integer to unsigned
|
|
CUU \*- : Convert unsigned to unsigned
|
|
CFU \*- : Convert floating to unsigned
|
|
.DE
|
|
|
|
.DS
|
|
GROUP 9 \- LOGICAL
|
|
|
|
AND \*w : Boolean and on two groups of \*w bytes
|
|
IOR \*w : Boolean inclusive or on two groups of \*w bytes
|
|
XOR \*w : Boolean exclusive or on two groups of \*w bytes
|
|
COM \*w : Complement (one's complement of top \*w bytes)
|
|
ROL \*w : Rotate left a group of \*w bytes
|
|
ROR \*w : Rotate right a group of \*w bytes
|
|
.DE
|
|
|
|
.DS
|
|
GROUP 10 \- SETS
|
|
|
|
INN \*w : Bit test on \*w byte set (bit number on top of stack)
|
|
SET \*w : Create singleton \*w byte set with bit n on (n is top of stack)
|
|
.DE
|
|
|
|
.DS
|
|
GROUP 11 \- ARRAY
|
|
|
|
LAR \*w : Load array element, descriptor contains integers of size \*w
|
|
SAR \*w : Store array element
|
|
AAR \*w : Load address of array element
|
|
.DE
|
|
|
|
.DS
|
|
GROUP 12 \- COMPARE
|
|
|
|
CMI \*w : Compare \*w byte integers, Push negative, zero, positive for <, = or >
|
|
CMF \*w : Compare \*w byte reals
|
|
CMU \*w : Compare \*w byte unsigneds
|
|
CMS \*w : Compare \*w byte values, can only be used for bit for bit equality test
|
|
CMP \*- : Compare pointers
|
|
|
|
TLT \*- : True if less, i.e. iff top of stack < 0
|
|
TLE \*- : True if less or equal, i.e. iff top of stack <= 0
|
|
TEQ \*- : True if equal, i.e. iff top of stack = 0
|
|
TNE \*- : True if not equal, i.e. iff top of stack non zero
|
|
TGE \*- : True if greater or equal, i.e. iff top of stack >= 0
|
|
TGT \*- : True if greater, i.e. iff top of stack > 0
|
|
.DE
|
|
|
|
.DS
|
|
GROUP 13 \- BRANCH
|
|
|
|
BRA \*b : Branch unconditionally to label \*b
|
|
|
|
BLT \*b : Branch less (pop 2 words, branch if top > second)
|
|
BLE \*b : Branch less or equal
|
|
BEQ \*b : Branch equal
|
|
BNE \*b : Branch not equal
|
|
BGE \*b : Branch greater or equal
|
|
BGT \*b : Branch greater
|
|
|
|
ZLT \*b : Branch less than zero (pop 1 word, branch negative)
|
|
ZLE \*b : Branch less or equal to zero
|
|
ZEQ \*b : Branch equal zero
|
|
ZNE \*b : Branch not zero
|
|
ZGE \*b : Branch greater or equal zero
|
|
ZGT \*b : Branch greater than zero
|
|
.DE
|
|
|
|
.DS
|
|
GROUP 14 \- PROCEDURE CALL
|
|
|
|
CAI \*- : Call procedure (procedure identifier on stack)
|
|
CAL \*p : Call procedure (with identifier \*p)
|
|
LFR \*s : Load function result
|
|
RET \*z : Return (function result consists of top \*z bytes)
|
|
.DE
|
|
|
|
.DS
|
|
GROUP 15 \- MISCELLANEOUS
|
|
|
|
ASP \*f : Adjust the stack pointer by \*f
|
|
ASS \*w : Adjust the stack pointer by \*w-byte integer
|
|
BLM \*z : Block move \*z bytes; first pop destination addr, then source addr
|
|
BLS \*w : Block move, size is in \*w-byte integer on top of stack
|
|
CSA \*w : Case jump; address of jump table at top of stack
|
|
CSB \*w : Table lookup jump; address of jump table at top of stack
|
|
DCH \*- : Follow dynamic chain, convert LB to LB of caller
|
|
DUP \*s : Duplicate top \*s bytes
|
|
DUS \*w : Duplicate top \*w bytes
|
|
EXG \*w : Exchange top \*w bytes
|
|
FIL \*g : File name (external 4 := \*g)
|
|
GTO \*g : Non-local goto, descriptor at \*g
|
|
LIM \*- : Load 16 bit ignore mask
|
|
LIN \*n : Line number (external 0 := \*n)
|
|
LNI \*- : Line number increment
|
|
LOR \*r : Load register (0=LB, 1=SP, 2=HP)
|
|
LPB \*- : Convert local base to argument base
|
|
MON \*- : Monitor call
|
|
NOP \*- : No operation
|
|
RCK \*w : Range check; trap on error
|
|
RTT \*- : Return from trap
|
|
SIG \*- : Trap errors to proc identifier on top of stack, \-2 resets default
|
|
SIM \*- : Store 16 bit ignore mask
|
|
STR \*r : Store register (0=LB, 1=SP, 2=HP)
|
|
TRP \*- : Cause trap to occur (Error number on stack)
|
|
.DE
|