📄 memory.inc
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;;*****************************************************************************
;;*****************************************************************************
;;
;; FILENAME: Memory.inc
;;
;; DESCRIPTION: Memory Model and Stack Parameter Definitions for
;; the 29xxx family of PSoC devices.
;;
;; LAST MODIFIED: June 17, 2004
;;
;;-----------------------------------------------------------------------------
;; Copyright (c) Cypress MicroSystems 2004. All Rights Reserved.
;;*****************************************************************************
;;*****************************************************************************
; ******** Define Memory Model and Stack parameters ********
;
SYSTEM_STACK_PAGE: equ 7
SYSTEM_STACK_BASE_ADDR: equ 0h
SYSTEM_LARGE_MEMORY_MODEL: equ 1
SYSTEM_SMALL_MEMORY_MODEL: equ 0
IMAGECRAFT: equ 1
HITECH: equ 2
TOOLCHAIN: equ IMAGECRAFT
SYSTEM_TOOLS: equ 1
SYSTEM_IDXPG_TRACKS_STK_PP: equ 1
SYSTEM_IDXPG_TRACKS_IDX_PP: equ 0
SYSTEM_MULTIPAGE_STACK: equ 0
; ******* Function Class Definitions *******
;
; These definitions are used to describe RAM access patterns. They provide
; documentation and they control prologue and epilogue macros that perform
; the necessary housekeeping functions for large memory model devices like
; the CY8C27x66 and CY8C29x66.
RAM_USE_CLASS_1: equ 1 ; PUSH, POP & I/O access
RAM_USE_CLASS_2: equ 2 ; Indexed address mode on stack page
RAM_USE_CLASS_3: equ 4 ; Indexed address mode to any page
RAM_USE_CLASS_4: equ 8 ; Direct/Indirect address mode access
; ******* Page Pointer Manipulation Macros *******
;
; Most of the following macros are conditionally compiled so they only
; produce code if the large memory model is selected.
;-----------------------------------------------
; Set Stack Page Macro
;-----------------------------------------------
;
; DESC: Modify STK_PP in the large or small memory Models.
;
; INPUT: Constant (e.g., SYSTEM_STACK_PAGE) that specifies the RAM page on
; which stack operations like PUSH and POP store and retrieve their
; data
;
; COST: 8 instruction cycles (in LMM only)
macro RAM_SETPAGE_STK( PG_NUMBER )
IF ( SYSTEM_LARGE_MEMORY_MODEL )
mov reg[STK_PP], @PG_NUMBER
ENDIF
endm
;-----------------------------------------------
; Set Current Page Macro
;-----------------------------------------------
;
; DESC: Modify CUR_PP in the large or small memory Models.
;
; INPUT: Constant value (e.g., >bFoo) for the RAM page number used in
; calculation of effective direct-mode address operands.
;
; COST: 8 instruction cycles (in LMM only)
macro RAM_SETPAGE_CUR( PG_NUMBER )
IF ( SYSTEM_LARGE_MEMORY_MODEL )
mov reg[CUR_PP], @PG_NUMBER
ENDIF
endm
;-----------------------------------------------
; Set Index Page Macro
;-----------------------------------------------
;
; DESC: Modify IDX_PP in the large or small emory Models.
;
; INPUT: Constant value (e.g., >caFoo) for the RAM page number used in
; calculation of effective index-mode address operands.
;
; COST: 8 instruction cycles (in LMM only)
macro RAM_SETPAGE_IDX( PG_NUMBER )
IF ( SYSTEM_LARGE_MEMORY_MODEL )
mov reg[IDX_PP], @PG_NUMBER
ENDIF
endm
;-----------------------------------------------
; Set MVI Read Page Macro
;-----------------------------------------------
;
; DESC: Modify MVR_PP in the large or small memory Models.
;
; INPUT: Constant value (e.g., >pFoo) for the RAM page number used in
; calculation of indirect address operands used in the
; "mvi A, [pFoo]" instructions.
;
; COST: 8 instruction cycles (in LMM only)
macro RAM_SETPAGE_MVR( PG_NUMBER )
IF ( SYSTEM_LARGE_MEMORY_MODEL )
mov reg[MVR_PP], @PG_NUMBER
ENDIF
endm
;-----------------------------------------------
; Set MVI Write Page Macro
;-----------------------------------------------
;
; DESC: Modify MVW_PP in the large or small memory Models.
;
; INPUT: Constant value (e.g., >pFoo) for the RAM page number used in
; calculation of indirect address operands used in the
; "mvi [pFoo], A" instructions.
;
; COST: 8 instruction cycles (in LMM only)
macro RAM_SETPAGE_MVW( PG_NUMBER )
IF ( SYSTEM_LARGE_MEMORY_MODEL )
mov reg[MVW_PP], @PG_NUMBER
ENDIF
endm
;-----------------------------------------------
; Force Index Page Pointer to Stack Page
;-----------------------------------------------
;
; DESC: Map index-mode operands onto the stack page by modifying IDX_PP.
; See also RAM_LOCK_INDEX_TO_STACKPAGE.
;
; INPUT: None
;
; COST: 8 instruction cycles (in LMM only)
macro RAM_SETPAGE_IDX2STK
IF ( SYSTEM_LARGE_MEMORY_MODEL )
IF ( SYSTEM_MULTIPAGE_STACK )
mov A, reg[STK_PP]
mov reg[IDX_PP], A
ELSE
RAM_SETPAGE_IDX SYSTEM_STACK_PAGE
ENDIF
ENDIF
endm
;-----------------------------------------------
; Change Memory Mode
;-----------------------------------------------
;
; DESC: Modify FLAG_PAGEMODE bits in the large and small memory Models.
;
; INPUT: Constant value for PGMODE bitfield of CPU Flag register, F.
; See FLAG_PGMODE_{x} constants in M8C.INC.
;
; COST: 8 instruction cycles (in LMM only)
macro RAM_CHANGE_PAGE_MODE( MODE )
IF ( SYSTEM_LARGE_MEMORY_MODEL )
and F, ~FLAG_PGMODE_MASK ; NOTE: transition thru 00b state
or F, FLAG_PGMODE_MASK & @MODE
ENDIF
endm
;-----------------------------------------------
; Set Large Memory Model Native Paging Mode
;-----------------------------------------------
;
; DESC: Changes the FLAG_PAGEMODE bits to enter the native LMM RAM
; paging mode *IFF* a simple "OR" is guaranteed to work---for
; example, in an ISR, when the PGMODE bits have been cleared
; to zero. If a simple "OR" is not guaranteed to work, use
; the slower RAM_RESTORE_NATIVE_PAGING instead.
;
; INPUT: none
;
; COST: 4 instruction cycles (in LMM only)
macro RAM_SET_NATIVE_PAGING
IF ( SYSTEM_LARGE_MEMORY_MODEL )
IF ( SYSTEM_IDXPG_TRACKS_STK_PP )
or F, FLAG_PGMODE_11b ; LMM w/ IndexPage<==>StackPage
ENDIF ; PGMODE LOCKED
IF ( SYSTEM_IDXPG_TRACKS_IDX_PP )
or F, FLAG_PGMODE_10b ; LMM with independent IndexPage
ENDIF ; PGMODE FREE
ENDIF ; SYSTEM_LARGE_MEMORY_MODEL
endm
;-----------------------------------------------
; Restore Large Memory Model Native Paging Mode
;-----------------------------------------------
;
; DESC: Changes the FLAG_PAGEMODE bits to enter the native LMM RAM
; paging mode. Always works because it clears the PGMODE bits
; before OR-ing in the new ones. See RAM_RESTORE_NATIVE_PAGING
; for a faster method.
;
; INPUT: none
;
; COST: 8 instruction cycles (in LMM only)
macro RAM_RESTORE_NATIVE_PAGING
IF ( SYSTEM_LARGE_MEMORY_MODEL )
IF ( SYSTEM_IDXPG_TRACKS_STK_PP )
RAM_CHANGE_PAGE_MODE FLAG_PGMODE_11b ; LMM w/ IndexPage<==>StackPage
ENDIF ; PGMODE LOCKED
IF ( SYSTEM_IDXPG_TRACKS_IDX_PP )
RAM_CHANGE_PAGE_MODE FLAG_PGMODE_10b ; LMM with independent IndexPage
ENDIF ; PGMODE FREE
ENDIF ; SYSTEM_LARGE_MEMORY_MODEL
endm
;-----------------------------------------------
; Force indexed addr mode operands to Stack Pg
;-----------------------------------------------
;
; DESC: Force instructions that use indexed address mode to reference the
; stack page (as defined by STK_PP). This macro sets the "Indexed
; Stack Mode" bit (LSB) of the PGMODE bit field in the CPU Flag
; register, F. (See also RAM_SETPAGE_IDX2STK, above.)
;
; INPUT: none
;
; COST: 4 instruction cycles (in LMM only)
macro RAM_X_POINTS_TO_STACKPAGE
IF ( SYSTEM_LARGE_MEMORY_MODEL )
or F, FLAG_PGMODE_01b
ENDIF ; SYSTEM_LARGE_MEMORY_MODEL
endm
;-----------------------------------------------
; Force indexed addr mode operands to Index Pg
;-----------------------------------------------
;
; DESC: Permit instructions that use indexed address mode to reference page
; zero or the page pointed to by the IDX_PP register, depending on the
; setting of the MSb (or "Direct Page Mode" bit) of the PGMODE bits
; in the CPU Flag register, F. (This macro clears the PGMODE LSb.)
;
; INPUT: none
;
; COST: 4 instruction cycles (in LMM only)
macro RAM_X_POINTS_TO_INDEXPAGE
IF ( SYSTEM_LARGE_MEMORY_MODEL )
and F, ~FLAG_PGMODE_01b
ENDIF ; SYSTEM_LARGE_MEMORY_MODEL
endm
;-----------------------------------------------
; Function Prologue
;-----------------------------------------------
;
; Prologue for functions that run in the LMM and SMM.
;
macro RAM_PROLOGUE( ACTUAL_CLASS )
IF ( @ACTUAL_CLASS & RAM_USE_CLASS_1 )
; Nothing to do
ENDIF ; RAM_USE_CLASS_1
IF ( @ACTUAL_CLASS & RAM_USE_CLASS_2 )
IF ( SYSTEM_IDXPG_TRACKS_IDX_PP )
RAM_X_POINTS_TO_STACKPAGE ; exit native paging mode!
ENDIF
ENDIF ; RAM_USE_CLASS_2
IF ( @ACTUAL_CLASS & RAM_USE_CLASS_3 )
IF ( SYSTEM_IDXPG_TRACKS_STK_PP )
RAM_X_POINTS_TO_INDEXPAGE ; exit native paging mode!
ENDIF
ENDIF ; RAM_USE_CLASS_3
IF ( @ACTUAL_CLASS & RAM_USE_CLASS_4 )
; Nothing to do
ENDIF ; RAM_USE_CLASS_4
endm
;-----------------------------------------------
; Function Epilogue
;-----------------------------------------------
;
; Prologue for functions that run in the LMM and SMM.
;
macro RAM_EPILOGUE( ACTUAL_CLASS )
IF ( @ACTUAL_CLASS & RAM_USE_CLASS_1 )
; Nothing to do
ENDIF ; RAM_USE_CLASS_1
IF ( @ACTUAL_CLASS & RAM_USE_CLASS_2 )
RAM_RESTORE_NATIVE_PAGING
ENDIF ; RAM_USE_CLASS_2
IF ( @ACTUAL_CLASS & RAM_USE_CLASS_3 )
RAM_RESTORE_NATIVE_PAGING
ENDIF ; RAM_USE_CLASS_3
IF ( @ACTUAL_CLASS & RAM_USE_CLASS_4 )
; Nothing to do
ENDIF ; RAM_USE_CLASS_4
endm
;-----------------------------------------------
; Preserve Register
;-----------------------------------------------
;
; DESC: Preserve a register value on the stack
;
; INPUT: Name or address of register in I/O Space
; The I/O bank is an implicit parameter. That is, this function will
; Access the I/O bank currently specified by the CPU Flag register.
;
; USES: CPU 'A' register
;
; COST: 9 instruction cycles
macro REG_PRESERVE( IOReg )
mov A, reg[ @IOReg ]
push A
endm
;-----------------------------------------------
; Restore Register
;-----------------------------------------------
;
; DESC: Restore a register value from the stack
;
; INPUT: Name or address of register in I/O Space
; The I/O bank is an implicit parameter. That is, this function will
; Access the I/O bank currently specified by the CPU Flag register.
;
; USES: CPU 'A' register
;
; COST: 10 instruction cycles
macro REG_RESTORE( IOReg )
pop A
mov reg[ @IOReg ], A
endm
;-----------------------------------------------
; Preserve Volatile Page Pointer Registers
;-----------------------------------------------
;
; DESC: Invoked by ISRs before switching to the LMM mode and calling
; functions that require on it.
;
; INPUT: none
;
; USES: CPU 'A' register
;
; COST: 45 instruction cycles (in LMM only)
macro ISR_PRESERVE_PAGE_POINTERS
IF ( SYSTEM_LARGE_MEMORY_MODEL )
REG_PRESERVE CUR_PP
REG_PRESERVE IDX_PP
REG_PRESERVE MVR_PP
REG_PRESERVE MVW_PP
ENDIF
endm
;-----------------------------------------------
; Restore Volatile Page Pointer Registers
;-----------------------------------------------
;
; DESC: Undo for RAM_PRESERVE_PAGE_POINTERS macro. Invoked by ISRs after
; calling functions that run in the LMM mode and before executing
; the RETI instruction.
;
; INPUT: none
;
; USES: CPU 'A' register
;
; COST: 50 instruction cycles (in LMM only)
macro ISR_RESTORE_PAGE_POINTERS
IF ( SYSTEM_LARGE_MEMORY_MODEL )
REG_RESTORE MVW_PP
REG_RESTORE MVR_PP
REG_RESTORE IDX_PP
REG_RESTORE CUR_PP
ENDIF
endm
; end of file Memory.inc
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