PM Opc CALL

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CALL = Call routine

Hex Mnemonic Cycles,True or False Condition
E0 ss CALLCB #ss*1 20 8 Carry=1
E1 ss CALLNCB #ss*1 20 8 Carry=0
E2 ss CALLZB #ss*1 20 8 Zero=1
E3 ss CALLNZB #ss*1 20 8 Zero=0
E8 ss ss CALLCW #ssss*1 24 12 Carry=1
E9 ss ss CALLNCW #ssss*1 24 12 Carry=0
EA ss ss CALLZW #ssss*1 24 12 Zero=1
EB ss ss CALLNZW #ssss*1 24 12 Zero=0
F0 ss CALLB #ss*1 20 None None
F2 ss ss CALLW #ssss*1 24 None None
FB nn nn CALL [#nnnn] 20 None None
FC nn CINT #nn 20 None None
CE F0 ss CALLL #ss 24 12 (Overflow=1) != (Sign=1)
CE F1 ss CALLLE #ss 24 12 ((Overflow=0) != (Sign=0)) OR (Zero=1)
CE F2 ss CALLG #ss 24 12 ((Overflow=1) == (Sign=1)) AND (Zero=0)
CE F3 ss CALLGE #ss 24 12 (Overflow=0) == (Sign=0)
CE F4 ss CALLO #ss 24 12 Overflow=1
CE F5 ss CALLNO #ss 24 12 Overflow=0
CE F6 ss CALLNS #ss 24 12 Sign=0
CE F7 ss CALLS #ss 24 12 Sign=1
CE F8 ss CALLNX0 #ss 24 12 ??
CE F9 ss CALLNX1 #ss 24 12 ??
CE FA ss CALLNX2 #ss 24 12 ??
CE FB ss CALLNX3 #ss 24 12 ??
CE FC ss CALLX0 #ss 24 12 ??
CE FD ss CALLX1 #ss 24 12 ??
CE FE ss CALLX2 #ss 24 12 ??
CE FF ss CALLX3 #ss 24 12 ??

*1: CALL, CALLC, CALLNC, CALLZ and CALLNZ can be used in the assembler to auto-detect the appropriate range.

Execute

#nn      = Immediate unsigned 8-Bits
#ss      = Immediate signed 8-Bits
#ssss    = Immediate signed 16-Bits
U/V      = Register U or V
SP       = Register SP (Stack Pointer)
PC       = Register PC (Program Counter)
[#nnnn]  = Memory: (I shl 16) or #nnnn
; CALL*B #ss

IF (Condition) THEN
  SP = SP - 3
  Memory[SP+2] = V
  Memory[SP+1] = PC SHR 8
  Memory[SP]   = PC AND 0x00FF
  V = U
  PC = PC + #ss - 1
ENDIF
; CALL*W #ssss

IF (Condition) THEN
  SP = SP - 3
  Memory[SP+2] = V
  Memory[SP+1] = PC SHR 8
  Memory[SP]   = PC AND 0x00FF
  V = U
  PC = PC + #ssss - 1
ENDIF
; CALLB #ss

SP = SP - 3
Memory[SP+2] = V
Memory[SP+1] = PC SHR 8
Memory[SP]   = PC AND 0x00FF
V = U
PC = PC + #ss - 1
; CALLW #ssss

SP = SP - 3
Memory[SP+2] = V
Memory[SP+1] = PC SHR 8
Memory[SP]   = PC AND 0x00FF
V = U
PC = PC + #ssss - 1
; CALL [#nnnn]

SP = SP - 3
Memory[SP+2] = V
Memory[SP+1] = PC SHR 8
Memory[SP]   = PC AND 0x00FF
V = U
PC = Memory16[(I SHL 16) + #nnnn]
; CINT #nn (not fully tested)

SP = SP - 4
Memory[SP+3] = V
Memory[SP+2] = PC SHR 8
Memory[SP+1] = PC AND 0x00FF
Memory[SP]   = F
V = U
PC = Memory16[#nn SHL 1]

Description

Call a subroutine (CALL*) or a interrupt vector (CINT).

Use RET to return from a subroutine and RETI from a interrupt.

NOTE: All non-branch instructions does "U = V" causing U to be restored, any branch that require banking needs "MOV U, A" or "MOV U, #nn" before CALL...

Conditions

None

Examples

 ; A = 0x10
 ; B = 0x10
 CALL somefunction
 ; A = 0x11
 ; B = 0x0F
 TST B, #0x10
 ; F = (Zero=0):(Sign=0)
 CALLZ somefunction    ; Condition fail, call not taken
 ; A = 0x11
 ; B = 0x0F
 ; F = (Zero=0):(Sign=0)
 CALLNS somefunction   ; Condition succeed
 ; A = 0x12
 ; B = 0x0E

 (...)

somefunction:
 INC A
 DEC B
 RET                   ; Return from the call
; Calling a subroutine at different bank
MOV U, $0F
CALL function_at_bank_16

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