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LDP (HL),HL
LDP (IX),HL
LDP (IY),HL     Load Physical     Rabbit 2000/3000/4000/5000 Instruction

Opcode	Instruction	Operation
ED 64	LDP (HL),HL	(HL) = L; (HL + 1) = H (Addr[19:16] = A[3:0])
DD 64	LDP (IX),HL	(IX) = L; (IX + 1) = H (Addr[19:16] = A[3:0])
FD 64	LDP (IY),HL	(IY) = L; (IY + 1) = H (Addr[19:16] = A[3:0])

Clocks	8-Bit Access	16-Bit Unaligned	16-Bit Aligned
Rabbit 2000/3000/4000	12	n/a	n/a
Rabbit 5000	12	12	11

Flags				ALTD			IOI/IOE
S	Z	L/V	C	F	R	SP	S	D
-	-	-	-

Description

These instructions are used to access 20-bit addresses. In all cases, the four most significant bits of the 20- bit address (bits 19 through 16) are defined as the four least significant bits of A (bits 3 though 0). The LDP instructions bypass the MMU's address translation unit for direct access to the 20-bit memory address space.

• LDP (HL),HL: Loads the memory location whose 16 least significant bits of its 20-bit address are the data in HL with the data in L, and then loads the following 20-bit address with the data in H.

• LDP (IX),HL: Loads the memory location whose 16 least significant bits of its 20-bit address are the data in IX with the data in L, and then loads the following 20-bit address with the data in H.

• LDP (IY),HL: Loads the memory location whose 16 least significant bits of its 20-bit address are the data in IY with the data in L, and then loads the following 20-bit address with the data in H.

Note that the LDP instructions wrap around on a 64K page boundary. Since the LDP instruction operates on two-byte values, the second byte will wrap around and be written at the start of the page if you try to read or write across a page boundary. Thus, if you fetch or store at address 0xn,0xFFFF, you will get the bytes located at 0xn, 0xFFFF and 0xn,0x0000 instead of 0xn,0xFFFF and 0x(n+1),0x0000 as you might expect. Therefore, do not use LDP at any physical address ending in 0xFFFF.