Datasheet
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11 INSTRUCTION SET
11.1 CPU ADDRESSING MODES
The CPU features 17 different addressing modes
which can be classified in seven main groups:
The CPU Instruction set is designed to minimize
the number of bytes required per instruction: To do
so, most of the addressing modes may be subdi-
vided in two submodes called long and short:
– Long addressing mode is more powerful be-
cause it can use the full 64 Kbyte address space,
however it uses more bytes and more CPU cy-
cles.
– Short addressing mode is less powerful because
it can generally only access page zero (0000h -
00FFh range), but the instruction size is more
compact, and faster. All memory to memory in-
structions use short addressing modes only
(CLR, CPL, NEG, BSET, BRES, BTJT, BTJF,
INC, DEC, RLC, RRC, SLL, SRL, SRA, SWAP)
The ST7 Assembler optimizes the use of long and
short addressing modes.
Table 26. CPU Addressing Mode Overview
Addressing Mode Example
Inherent nop
Immediate ld A,#$55
Direct ld A,$55
Indexed ld A,($55,X)
Indirect ld A,([$55],X)
Relative jrne loop
Bit operation bset byte,#5
Mode Syntax Destination
Pointer
Address
(Hex.)
Pointer Size
(Hex.)
Length
(Bytes)
Inherent nop + 0
Immediate ld A,#$55 + 1
Short Direct ld A,$10 00..FF + 1
Long Direct ld A,$1000 0000..FFFF + 2
No Offset Direct Indexed ld A,(X) 00..FF + 0
Short Direct Indexed ld A,($10,X) 00..1FE + 1
Long Direct Indexed ld A,($1000,X) 0000..FFFF + 2
Short Indirect ld A,[$10] 00..FF 00..FF byte + 2
Long Indirect ld A,[$10.w] 0000..FFFF 00..FF word + 2
Short Indirect Indexed ld A,([$10],X) 00..1FE 00..FF byte + 2
Long Indirect Indexed ld A,([$10.w],X) 0000..FFFF 00..FF word + 2
Relative Direct jrne loop PC+/-127 + 1
Relative Indirect jrne [$10] PC+/-127 00..FF byte + 2
Bit Direct bset $10,#7 00..FF + 1
Bit Indirect bset [$10],#7 00..FF 00..FF byte + 2
Bit Direct Relative btjt $10,#7,skip 00..FF + 2
Bit Indirect Relative btjt [$10],#7,skip 00..FF 00..FF byte + 3