# $Header$ This directory contains two programs: mkswitch: C program, necessary for regenerating the giant switches which are part of the INT project. mkfuncs: shell script that can be used to generate new function files, if a new implementation is needed. The first program reads an input file which holds the interpreter opcode table (as shown in the [IR-81] report appendix B), and creates an output file which contains an enormous switch file. This switch has entries for each possible opcode. It's possible to supply a third filename, which is the name of file where all functions will be stored. This is necessary if a new function implementation is needed. The first argument to mkswitch is the prefix to be used in the generated function names. For the interpreter proper this prefix is Do. The input file contains lines in the following format: Mnemonic Flags Count First-number The created switch file will contain a switch, with each case having one of the following formats (? is the opcode): 1) case ?: DoAz(); 2) case ?: DoBm(val); 3) case ?: DoCs(hob, wsize); 4) case ?: DoDXY(wsize); Ad 1) This format shows that the corresponding opcode does not have an argument. Often the operand is popped from the stack. e.g. DoNOPz(), this performs the NOP instruction. Ad 2) This is the format for a mini. There is one implicit argument (I) . e.g. DoLOCm(1), this is the LOC 1 instruction. Ad 3) This format corresponds with a shortie. There is an implicit argument (high order byte), and a one byte text argument (low order byte). W equals 'wsize' (if a word multiple), otherwise it equals '1'. H is the value of the high order byte. e.g. DoLOEs(2, wsize), these are all LOE instructions, with all addresses in the range: (512 * wordsize) . . (767 * wordsize). Ad 4) This format is used for opcodes with 2 or more text arguments, and no implicit arguments. There are 6 types: XY = l2: two byte negative or positive text argument. XY = n2: two byte negative text argument. XY = p2: two byte positive text argument. XY = l4: four byte negative or positive text argument. XY = n4: four byte negative text argument. XY = p4: four byte positive text argument. W equals 'wsize' (if a word multiple), otherwise it equals 1. e.g. DoLDLp2(wsize), these are all LDL instructions, with negative local offsets, which are word multiples. When two file arguments are given to mkswitch (input file and output file), only the switch is generated. If an additional third file name is given (another output file), this file is filled with all function calls in such a manner that mkfuncs will generate new function files. Mkfuncs expects two arguments, an input file generated by mkswitch and the name of a directory where the new function files are stored. These files (15) each represent one group (as proposed in [IR-81] sec 11.3) of instructions. Each file will contain all functions needed to implement that specific group of instructions. The functions will only contain a logging message, and a call to newPC() which is necessary to skip the arguments. The names of the generated files are: do_XXX.c, where XXX is the name of the corresponding instruction group.