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software:upi_conventions [2016/06/14 10:01] ex_writer [SYSTEM and SYSSUK] |
software:upi_conventions [2016/06/14 10:45] (current) ex_writer [Example: Space Fortress User Subroutine] |
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| The system routine call breaks down as follows: | The system routine call breaks down as follows: | ||
| - | * The RST instruction ($38/56) calls the system routine. | + | * The RST instruction ($38/56) initiates the system routine call. |
| * The parameter byte comprises three parts (read right-to-left): | * The parameter byte comprises three parts (read right-to-left): | ||
| * The option bit (0) specifies how arguments are being passed to the system routine. If 0, the arguments are presumed to exist in CPU registers; if 1, the arguments are presumed to follow inline after the parameter byte. These arguments are loaded into the [[#context block]] automatically (i.e., "sucked") before the called routine is entered. (The arguments required by each system routine are given in the routine's description section.) | * The option bit (0) specifies how arguments are being passed to the system routine. If 0, the arguments are presumed to exist in CPU registers; if 1, the arguments are presumed to follow inline after the parameter byte. These arguments are loaded into the [[#context block]] automatically (i.e., "sucked") before the called routine is entered. (The arguments required by each system routine are given in the routine's description section.) | ||
| * The routine number is an even number specifying which subroutine to transfer to. (Symbolic identifiers, which are equated to routine numbers, are provided in HVGLIB.) | * The routine number is an even number specifying which subroutine to transfer to. (Symbolic identifiers, which are equated to routine numbers, are provided in HVGLIB.) | ||
| * The type bit (7) indicates whether the user is calling a standard subroutine (0) or a [[#user-defined subroutine]] (1). | * The type bit (7) indicates whether the user is calling a standard subroutine (0) or a [[#user-defined subroutine]] (1). | ||
| + | |||
| + | All UPI routines are [[:glossary#r|reentrant]]. | ||
| | | ||
| === UPI Parameter Byte Summary === | === UPI Parameter Byte Summary === | ||
| Line 25: | Line 27: | ||
| | 1–6 | Subroutine number (always even) to transfer to | | | | 1–6 | Subroutine number (always even) to transfer to | | | ||
| | 7 | Subroutine type | 0 = standard subroutine; 1 = user-defined subroutine | | | 7 | Subroutine type | 0 = standard subroutine; 1 = user-defined subroutine | | ||
| - | ==== Example: Calling PAWS with Parameters ==== | + | ==== Example: Calling PAWS with a Parameter ==== |
| <code z80> | <code z80> | ||
| RST 38H ; call subroutine | RST 38H ; call subroutine | ||
| Line 84: | Line 86: | ||
| - | ===== System Routine Format ===== | + | ===== System Routine Conventions ===== |
| A system routine is coded like a conventional machine language subroutine, except that output parameters are not passed through registers but through the context block. | A system routine is coded like a conventional machine language subroutine, except that output parameters are not passed through registers but through the context block. | ||
| - | The context block is created by the RST 56 call. The user's register set (AF, BC, DE, HL, IX, IY) is pushed onto the stack. Register IY is set to point at this stack frame. Thus a copy of the input arguments exists in RAM, which the system routine may refer to as needed. These arguments are also present in the registers when the system routine is entered, so it is only necessary to refer to the context block when one has clobbered an input argument. | + | The context block is created by the RST $38/56 call. The user's register set (AF, BC, DE, HL, IX, IY) is pushed onto the stack. Register IY is set to point at this stack frame. Thus a copy of the input arguments exists in RAM, which the system routine may refer to as needed. These arguments are also present in the registers when the system routine is entered, so it is only necessary to refer to the context block when one has clobbered an input argument. |
| An output argument is returned to the caller by setting it in the context block. If a register was changed, but the associated cell in the context block was not, then the register will have its old value on return. Thus a system routine is free to use any of the registers it needs without worrying about saving and restoring. The user can also assume that no registers will change except those defined as returning an output argument. | An output argument is returned to the caller by setting it in the context block. If a register was changed, but the associated cell in the context block was not, then the register will have its old value on return. Thus a system routine is free to use any of the registers it needs without worrying about saving and restoring. The user can also assume that no registers will change except those defined as returning an output argument. | ||
| Line 112: | Line 114: | ||
| <code>(INDEX), IXL, IXH, E, D, C, B, A, L, H</code> | <code>(INDEX), IXL, IXH, E, D, C, B, A, L, H</code> | ||
| - | Registers that are not defined as containing output parameters will not change. | ||
| - | |||
| - | All UPI routines are [[:glossary#r|reentrant]]. | ||
| ===== User-Defined Subroutines ===== | ===== User-Defined Subroutines ===== | ||
| Line 120: | Line 119: | ||
| <WRAP todo>Section needs clarification.</WRAP> | <WRAP todo>Section needs clarification.</WRAP> | ||
| - | The UPI has been extended to support user-defined system routines. If the interpreter encounters a negative call index (i.e., bit 7 of the subroutine number is set), and "suck inline" is optioned, the user's macro routine address table (USERMT) and argument table (UMARGT) are used. The User Macro Routine Argument Table (UMARGT) is indexed for a parameter mask. The address of this table is assumed to be in (UMARGT),(UMARGT+1). This pointer should point 64 bytes before the first real entry. | + | The UPI has been extended to support user-defined system routines. If the UPI parameter byte's type bit (7) is set (or the byte's value is $80–$FF), and "suck inline" is optioned, the user's macro routine address table (USERMT) and argument table (UMARGT) are used. The User Macro Routine Argument Table (UMARGT) is indexed for a parameter mask. The address of this table is assumed to be in (UMARGT),(UMARGT+1). This pointer should point 64 bytes before the first real entry. |
| - | === Example === | + | ---- |
| - | <code z80> | + | |
| - | LD HL,USERMT-64 ; WHERE USERMT POINTS AT | + | From system BIOS: |
| - | LD (UMARGT),HL | + | |
| + | <code>The UPI has been extended to support user-supplied routines. | ||
| + | If the call index provided is negative [or from $ff through $80] | ||
| + | then the users dispatch table pointer (USERTB) is used [also UMARGT]. | ||
| + | Note that the sign bit isn't zapped before being used as an index, | ||
| + | this means that the users dispatch table pointer should point | ||
| + | 128 bytes before the first entry.</code> | ||
| + | |||
| + | Also: | ||
| + | |||
| + | <code> | ||
| + | THE UPI HAS BEEN EXTENDED TO PROVIDE USER PROVIDED | ||
| + | ; SYSTEM ROUTINES. IF A NEGATIVE CALL INDEX IS ENCOUNTERED | ||
| + | ; BY THE INTERPRETER, AND 'SUCK INLINE' IS OPTIONED, THE | ||
| + | ; USER MACRO ROUTINE ARGUMENT TABLE IS INDEXED FOR A | ||
| + | ; PARAMETER MASK. THE ADDRESS OF THIS TABLE IS ASSUMED | ||
| + | ; TO BE IN (UMARGT),(UMARGT+1). THIS POINTER SHOULD | ||
| + | ; POINT 64 BYTES BEFORE THE FIRST REAL ENTRY. | ||
| + | ; I.E. LD HL,USERMT-64 ; WHERE USERMT POINTS AT the USER's Macro Table | ||
| + | ; LD (UMARGT),HL | ||
| </code> | </code> | ||
| + | |||
| + | ---- | ||
| The user must set up the subroutine as follows: | The user must set up the subroutine as follows: | ||
| ^ Location ^ Function ^ | ^ Location ^ Function ^ | ||
| - | | 4FFB/4FFC | (Base address of register load specifications) - 40H | | + | | 4FFB/4FFC (UMARGT) | (Base address of register load specifications) - 40H (64D) | |
| - | | 4FFD/4FFE | (Base address of subroutine jump table) - 80H | | + | | 4FFD/4FFE (USERTB) | (Base address of subroutine jump table) - 80H (128D) | |
| The user is responsible for storing the addresses of these tables into dedicated system RAM cells. | The user is responsible for storing the addresses of these tables into dedicated system RAM cells. | ||
| Line 175: | Line 195: | ||
| ; [...] | ; [...] | ||
| + | LD HL,$1FA7 | ||
| + | LD ($4FFD),HL ; $4FFD is USER Table Base + routine = JumP address | ||
| + | LD HL,$1FE9 | ||
| + | LD ($4FFB),HL ; $4FFB is User Mask ARGument Table + (routine / 2) | ||
| + | LD A,R | ||
| + | AND $1C | ||
| + | LD ($4F2A),A | ||
| + | L2FEE LD HL,L2FEE ; $2FEE is current program counter address | ||
| + | PUSH HL | ||
| + | EI | ||
| ; Call User's Macro Subroutine $80 | ; Call User's Macro Subroutine $80 | ||
