ack/man/pdp_as.1

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1984-07-12 15:18:13 +00:00
.\" $Header$
1984-07-12 14:55:49 +00:00
.TH PDP_AS 1
.ad
.SH NAME
pdp_as \- assembler for PDP 11
.SH SYNOPSIS
/usr/em/lib/pdp_as [options] argument ...
.SH DESCRIPTION
This assembler is made with the general framework
described in \fIuni_ass\fP(6).
.SH SYNTAX
.IP registers
The pdp11 has seven general registers, numbered r0 through r7.
Of these, r6 is the stack pointer and can also be referenced to by `sp',
r7 is the program counter and has `pc' as synonym. There are also six
floating-point registers fr0 through fr5, but the names r0 through r5 can
also be used. From the context will be derived what kind of register is meant.
.IP "addressing modes"
.nf
.ta 8 16 24 32 40 48
syntax meaning (name)
reg contents of register reg is operand.
(register)
(reg) contents of reg is address of operand.
(register deferred)
(reg)+ as (reg), but after the operand is fetched
the contents of reg is incremented by the
size of the operand. (auto-increment)
*(reg)+ contents of reg points to address of the operand.
after the operand is fetched, reg is incremented
by two. (auto-increment deferred)
-(reg) as (reg), but before the operand is fetched
the contents of reg is decremented by the
size of the operand. (auto-decrement)
*-(reg) before the operand is fetched, reg is decremented
by two. then the contents of reg points to the
address of the operand. (auto-decrement deferred)
expr(reg) value of expr + contents of reg yields address
of operand. (index)
*expr(reg) value of expr + contents of reg yields pointer
to address of operand. (index deferred)
$expr the value of expr is the operand. (immediate)
*$expr the value of expr is the address of the operand.
(absolute)
expr expr is address of operand. (relative)
*expr expr points to the address of the operand.
(relative deferred)
.fi
.IP "condition code instructions"
Two or more of the "clear" instructions (clc, cln, clv, clz), or
two or more of the "set" instructions (sec, sen, sev, sez) may be
or-ed together with `|' to yield a instruction that clears or sets two or more
of the condition-bits. Scc and ccc are not predefined.
.IP "extended branches"
The assembler recognizes conditional branches with a "j" substituted for
the "b". When the target is too remote for a simple branch, a converse branch
over a jmp to the target is generated. Likewise jbr assembles into either br
or jmp.
.IP "floating-point instructions"
The names of several floating-point instructions differ from the names
in the handbook mentioned below. Synonyms ending in "d" for instructions ending
in "f" are not recognized. Some instructions have different names; the mapping
is as below.
.nf
.ta 8 16 24 32 40 48
handbook pdp_as
ldcif, ldclf,
ldcid, ldcld movif
stcfi, stcfl,
stcdi, stcdl movfi
ldcdf, ldcfd movof
stcdf, stcfd movfo
ldexp movie
stexp movei
ldd, ldf movf
std, stf movf
.fi
The movf instruction assembles into stf, when the first operand is one of the
first three floating-point registers, otherwise it assembles into ldf.
.IP sys
This instruction is synonymous with trap.
.SH EXAMPLE
An example of pdp11 assembly code.
.nf
.ta 8 16 24 32 40 48
!this is the routine that reads numbers into r0
!the number is terminated by any non digit
!the non digit is left in r1
innum: clr r3 !r3 will accumulate the number
inloop: jsr pc,_getchar !read a character into r0
cmp r0,$0121 !is it a Q?
jeq quit
cmp r0,$48 !is the character a digit?
jlt indone !digits 0-9 have codes 060-071 octal
cmp r0,$56
jgt indone
mul $10,r3 !r3 = 10 * r3
sub $48,r3 !convert ascii code to numerical value
add r0,r3 !r3 = old sum * 10 + new digi
jbr inloop
indone: mov r0,r1 !put the first non digit into r1
mov r3,r0 !put the number read into r0
rts pc !return to caller
.fi
.SH "SEE ALSO"
uni_ass(6),
ack(1),
.br
PDP11/60 processor handbook, Digital Equipment Corporation, 1977
.SH BUGS
You cannot use *reg in place of (reg). Likewise *(reg) is not understood as
*0(reg).