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newrpl/lib-eight-docol.c
claudio a8551296c5 Basic infix compiling
2014-07-07 20:43:44 -04:00

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6.4 KiB
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/*
* Copyright (c) 2014, Claudio Lapilli and the newRPL Team
* All rights reserved.
* This file is released under the 3-clause BSD license.
* See the file LICENSE.txt that shipped with this distribution.
*/
// LIBRARY ZERO HAS SPECIAL RUNSTREAM OPERATORS
#include "newrpl.h"
#include "libraries.h"
#include "hal.h"
// THERE'S ONLY ONE EXTERNAL FUNCTION: THE LIBRARY HANDLER
// ALL OTHER FUNCTIONS ARE LOCAL
// LIB0 PROVIDES EXIT FROM RPL, BREAKPOINTS AND RUNSTREAM MANIPULATION OPCODES
// MAIN LIBRARY NUMBER, CHANGE THIS FOR EACH LIBRARY
#define LIBRARY_NUMBER 8
#define LIB_ENUM lib8_enum
#define LIB_NAMES lib8_names
#define LIB_HANDLER lib8_handler
#define LIB_NUMBEROFCMDS LIB8_NUMBEROFCMDS
// LIST OF COMMANDS EXPORTED, CHANGE FOR EACH LIBRARY
#define CMD_LIST \
CMD(EXITRPL), \
CMD(BREAKPOINT), \
CMD(XEQSECO)
// ADD MORE OPCODES HERE
// EXTRA LIST FOR COMMANDS WITH SYMBOLS THAT ARE DISALLOWED IN AN ENUM
// THE NAMES AND ENUM SYMBOLS ARE GIVEN SEPARATELY
#define CMD_EXTRANAME \
";",
#define CMD_EXTRAENUM \
SEMI
//
// INTERNAL DECLARATIONS
// CREATE AN ENUM WITH THE OPCODE NAMES FOR THE DISPATCHER
#define CMD(a) a
enum LIB_ENUM { CMD_LIST , CMD_EXTRAENUM , LIB_NUMBEROFCMDS };
#undef CMD
// AND A LIST OF STRINGS WITH THE NAMES FOR THE COMPILER
#define CMD(a) #a
char *LIB_NAMES[]= { CMD_LIST , CMD_EXTRANAME };
#undef CMD
void LIB_HANDLER()
{
if(ISPROLOG(CurOpcode)) {
// PROVIDE BEHAVIOR OF EXECUTING THE OBJECT HERE
rplPushRet(IPtr); // PUSH CURRENT POINTER AS THE RETURN ADDRESS. AT THIS POINT, IPtr IS POINTING TO THIS SECONDARY WORD
// BUT THE MAIN LOOP WILL ALWAYS SKIP TO THE NEXT OBJECT AFTER A SEMI.
CurOpcode=MKPROLOG(LIBRARY_NUMBER,0); // ALTER THE SIZE OF THE SECONDARY TO ZERO WORDS, SO THE NEXT EXECUTED INSTRUCTION WILL BE THE FIRST IN THIS SECONDARY
return;
}
switch(OPCODE(CurOpcode))
{
case EXITRPL:
return;
case BREAKPOINT:
Exceptions|=EX_BKPOINT;
ExceptionPointer=IPtr;
return;
case XEQSECO:
// IF THE NEXT OBJECT IN THE SECONDARY
// IS A SECONDARY, IT EVALUATES IT INSTEAD OF PUSHING IT ON THE STACK
++IPtr;
CurOpcode=*IPtr;
if(ISPROLOG(CurOpcode)&& (LIBNUM(CurOpcode)==SECO)) {
CurOpcode=MKPROLOG(SECO,0); // MAKE IT SKIP INSIDE THE SECONDARY
rplPushRet(IPtr);
return;
}
// HAVE NO EFFECT ON ANY OTHER OBJECTS
--IPtr;
CurOpcode=*IPtr;
return;
case SEMI:
// POP THE RETURN ADDRESS
IPtr=rplPopRet(); // GET THE CALLER ADDRESS
CurOpcode=*IPtr; // SET THE WORD SO MAIN LOOP SKIPS THIS OBJECT, AND THE NEXT ONE IS EXECUTED
return;
// ADD MORE OPCODES HERE
case OVR_EVAL:
// EXECUTE THE OBJECT
case OVR_XEQ:
// ALSO EXECUTE THE OBJECT
rplPushRet(IPtr); // PUSH CURRENT POINTER AS THE RETURN ADDRESS.
IPtr=rplPopData(); // SET NEW IPTR TO THE PROGRAM, TO BE EXECUTED
CurOpcode=MKPROLOG(LIBRARY_NUMBER,0); // ALTER THE SIZE OF THE SECONDARY TO ZERO WORDS, SO THE NEXT EXECUTED INSTRUCTION WILL BE THE FIRST IN THIS SECONDARY
return;
// STANDARIZED OPCODES:
// --------------------
// LIBRARIES ARE FORCED TO ALWAYS HANDLE THE STANDARD OPCODES
case OPCODE_COMPILE:
// COMPILE RECEIVES:
// TokenStart = token string
// TokenLen = token length
// BlankStart = token blanks afterwards
// BlanksLen = blanks length
// CurrentConstruct = Opcode of current construct/WORD of current composite
// COMPILE RETURNS:
// RetNum = enum CompileErrors
// CHECK IF THE TOKEN IS THE OBJECT DOCOL
if((TokenLen==2) && (!strncmp((char * )TokenStart,"::",2)))
{
rplCompileAppend((WORD) MKPROLOG(LIBRARY_NUMBER,0));
RetNum=OK_STARTCONSTRUCT;
return;
}
// CHECK IF THE TOKEN IS SEMI
if(((TokenLen==1) && (!strncmp((char *)TokenStart,";",1))))
{
if(CurrentConstruct!=MKPROLOG(LIBRARY_NUMBER,0)) {
RetNum=ERR_SYNTAX;
return;
}
rplCleanupLAMs(*(ValidateTop-1));
rplCompileAppend(MKOPCODE(LIBRARY_NUMBER,SEMI));
RetNum=OK_ENDCONSTRUCT;
return;
}
// THIS STANDARD FUNCTION WILL TAKE CARE OF COMPILATION OF STANDARD COMMANDS GIVEN IN THE LIST
// NO NEED TO CHANGE THIS UNLESS CUSTOM OPCODES
libCompileCmds(LIBRARY_NUMBER,LIB_NAMES,NULL,LIB_NUMBEROFCMDS);
// SINCE THIS IS THE LAST LIBRARY TO BE EVALUATED, DO ONE LAST PASS TO COMPILE IT AS AN IDENT
// EITHER LAM OR IN USEROB
return;
case OPCODE_DECOMPILE:
// DECOMPILE RECEIVES:
// DecompileObject = Ptr to WORD of object to decompile
// DecompStringEnd = Ptr to the end of decompile string
//DECOMPILE RETURNS
// RetNum = enum DecompileErrors
if(ISPROLOG(*DecompileObject)) {
rplDecompAppendString((BYTEPTR)"::");
RetNum=OK_STARTCONSTRUCT;
return;
}
// THIS STANDARD FUNCTION WILL TAKE CARE OF DECOMPILING STANDARD COMMANDS GIVEN IN THE LIST
// NO NEED TO CHANGE THIS UNLESS THERE ARE CUSTOM OPCODES
libDecompileCmds(LIB_NAMES,NULL,LIB_NUMBEROFCMDS);
return;
case OPCODE_VALIDATE:
// VALIDATE RECEIVES OPCODES COMPILED BY OTHER LIBRARIES, TO BE INCLUDED WITHIN A COMPOSITE OWNED BY
// THIS LIBRARY. EVERY COMPOSITE HAS TO EVALUATE IF THE OBJECT BEING COMPILED IS ALLOWED INSIDE THIS
// COMPOSITE OR NOT. FOR EXAMPLE, A REAL MATRIX SHOULD ONLY ALLOW REAL NUMBERS INSIDE, ANY OTHER
// OPCODES SHOULD BE REJECTED AND AN ERROR THROWN.
// Library receives:
// CurrentConstruct = SET TO THE CURRENT ACTIVE CONSTRUCT TYPE
// LastCompiledObject = POINTER TO THE LAST OBJECT THAT WAS COMPILED, THAT NEEDS TO BE VERIFIED
// VALIDATE RETURNS:
// RetNum = OK_CONTINUE IF THE OBJECT IS ACCEPTED, ERR_INVALID IF NOT.
RetNum=OK_CONTINUE;
return;
}
// UNHANDLED OPCODE...
// IF IT'S A COMPILER OPCODE, RETURN ERR_NOTMINE
if(OPCODE(CurOpcode)>=MIN_RESERVED_OPCODE) {
RetNum=ERR_NOTMINE;
return;
}
// BY DEFAULT, ISSUE A BAD OPCODE ERROR
Exceptions|=EX_BADOPCODE;
ExceptionPointer=IPtr;
return;
}
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