Artifact 013c8584f7416d4865fd103d6974cb07577323e945fce82b3c41b712833874e5:
- File
r36/cslbase/eval4.c
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[152fb3bdbb]
at
2011-10-17 17:58:33
on branch master
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in historical/r36 treegit-svn-id: https://svn.code.sf.net/p/reduce-algebra/code/trunk/historical@1480 2bfe0521-f11c-4a00-b80e-6202646ff360 (user: schoepf@users.sourceforge.net, size: 50684) [annotate] [blame] [check-ins using] [more...]
/* * eval4.c Copyright (C) 1991-96, Codemist Ltd * * Bytecode interpreter/main interpreter interfaces */ /* Signature: 502ad14c 12-Mar-2000 */ #include <stdarg.h> #include <string.h> #include <ctype.h> #include "machine.h" #include "tags.h" #include "cslerror.h" #include "externs.h" #include "arith.h" #include "entries.h" #ifdef TIMEOUT #include "timeout.h" #endif #ifdef DEBUG int trace_all = 0; #endif #define name_from(def) elt(qcdr(def), 0) static void trace_entering(char *s) { int i; for (i=0; i<trace_depth; i++) trace_printf(" "); trace_printf(s); trace_depth++; } static void trace_exiting(char *s) { int i; trace_depth--; trace_printf(s); } Lisp_Object MS_CDECL bytecoded0(Lisp_Object def, int nargs, ...) { Lisp_Object nil=C_nil; if (nargs != 0) return error(2, err_wrong_no_args, name_from(def), fixnum_of_int((int32)nargs)); push2(litvec, codevec); stackcheck1(2, def); /* * The "-2" on the next line is discussed in the file bytes1.c. It is * part of the mechanism for allowing functions to have a few data bytes * at the start of the code-vector. */ #ifdef DEBUG if (trace_all) { trace_all = 0; push(def); freshline_trace(); trace_entering("Entering "); loop_print_trace(name_from(def)); trace_printf(" (no args)\n"); trace_all = 1; nil = C_nil; if (exception_pending()) { popv(3); return nil; } pop(def); } #endif def = bytestream_interpret(qcar(def)-2, qcdr(def), stack); nil = C_nil; if (exception_pending()) { flip_exception(); pop2(codevec, litvec); flip_exception(); return nil; } pop2(codevec, litvec); return def; } Lisp_Object bytecoded1(Lisp_Object def, Lisp_Object a) { Lisp_Object r; Lisp_Object nil = C_nil; push3(litvec, codevec, a); stackcheck1(3, def); #ifdef DEBUG if (trace_all) { trace_all = 0; push(def); freshline_trace(); trace_printf("Entering "); loop_print_trace(name_from(def)); trace_printf("Arg1: "); loop_print_trace(stack[-1]); trace_printf("\n"); trace_all = 1; nil = C_nil; if (exception_pending()) { popv(4); return nil; } pop(def); } #endif r = bytestream_interpret(qcar(def)-2, qcdr(def), stack-1); nil = C_nil; if (exception_pending()) { flip_exception(); /* * If bytestream_interpret handed back a failure code then the VERY LAST * thing that it did was to move stack down, in effect losing the argument * that had been passed to the bytesteam code. But nothing can touch the * stack between that action and here, so if I quickly increment the * stack pointer again I can find the argument again - or at least whetever * value the failed function left in that variable. Yes this does look * a little delicate, but I do like seeing argument values in my backtraces, * and the software stack involved here it totally under my control. * NOTE however that if the function I am calling here does a tail call * to something that is not directly bytecoded then the stack can be * clobbered, and the results will be garbage in the backtrace. */ stack++; pop3(a, codevec, litvec); if ((exit_reason & UNWIND_ERROR) != 0) { err_printf("Arg1: "); loop_print_error(a); err_printf("\n"); ignore_exception(); } flip_exception(); return nil; } pop2(codevec, litvec); return r; } Lisp_Object bytecoded2(Lisp_Object def, Lisp_Object a, Lisp_Object b) { Lisp_Object r; Lisp_Object nil = C_nil; push4(litvec, codevec, a, b); stackcheck1(4, def); #ifdef DEBUG if (trace_all) { trace_all = 0; push(def); freshline_trace(); trace_printf("Entering "); loop_print_trace(name_from(def)); trace_printf("Arg1: "); loop_print_trace(stack[-2]); trace_printf("\n"); trace_printf("Arg2: "); loop_print_trace(stack[-1]); trace_printf("\n"); trace_all = 1; nil = C_nil; if (exception_pending()) { popv(5); return nil; } pop(def); } #endif r = bytestream_interpret(qcar(def)-2, qcdr(def), stack-2); nil = C_nil; if (exception_pending()) { flip_exception(); stack += 2; if ((exit_reason & UNWIND_ERROR) != 0) { err_printf("Arg 1: "); loop_print_error(stack[-1]); err_printf("\n"); ignore_exception(); err_printf("Arg 2: "); loop_print_error(stack[0]); err_printf("\n"); ignore_exception(); } popv(2); pop2(codevec, litvec); flip_exception(); return nil; } pop2(codevec, litvec); return r; } Lisp_Object MS_CDECL bytecoded3(Lisp_Object def, int nargs, ...) { va_list aa; Lisp_Object r, a, b, c; Lisp_Object nil = C_nil; if (nargs != 3) return error(2, err_wrong_no_args, name_from(def), fixnum_of_int((int32)nargs)); va_start(aa, nargs); a = va_arg(aa, Lisp_Object); b = va_arg(aa, Lisp_Object); c = va_arg(aa, Lisp_Object); va_end(aa); push5(litvec, codevec, a, b, c); stackcheck1(5, def); #ifdef DEBUG if (trace_all) { trace_all = 0; push(def); freshline_trace(); trace_printf("Entering "); loop_print_trace(name_from(def)); trace_printf("Arg1: "); loop_print_trace(stack[-3]); trace_printf("\n"); trace_printf("Arg2: "); loop_print_trace(stack[-2]); trace_printf("\n"); trace_printf("Arg3: "); loop_print_trace(stack[-1]); trace_printf("\n"); trace_all = 1; nil = C_nil; if (exception_pending()) { popv(6); return nil; } pop(def); } #endif r = bytestream_interpret(qcar(def)-2, qcdr(def), stack-3); nil = C_nil; if (exception_pending()) { flip_exception(); stack += 3; if ((exit_reason & UNWIND_ERROR) != 0) { err_printf("Arg1: "); loop_print_error(stack[-2]); err_printf("\n"); ignore_exception(); err_printf("Arg2: "); loop_print_error(stack[-1]); err_printf("\n"); ignore_exception(); err_printf("Arg3: "); loop_print_error(stack[0]); err_printf("\n"); ignore_exception(); } popv(3); pop2(codevec, litvec); flip_exception(); return nil; } pop2(codevec, litvec); return r; } Lisp_Object MS_CDECL bytecodedn(Lisp_Object def, int nargs, ...) { /* * The messing about here is to get the (unknown number of) args * into a nice neat vector so that they can be indexed into. If I knew * that the args were in consecutive locations on the stack I could * probably save a copying operation. */ Lisp_Object r; Lisp_Object nil = C_nil; int i; Lisp_Object *stack_save = stack; va_list a; push2(litvec, codevec); if (nargs != 0) { va_start(a, nargs); push_args(a, nargs); } stackcheck1(stack-stack_save, def); r = qcar(def); if (nargs != ((unsigned char *)data_of_bps(r))[0]) { popv(nargs+2); return error(2, err_wrong_no_args, name_from(def), fixnum_of_int((int32)nargs)); } r = bytestream_interpret(r-1, qcdr(def), stack-nargs); nil = C_nil; if (exception_pending()) { flip_exception(); stack += nargs; if ((exit_reason & UNWIND_ERROR) != 0) /* * Note that in this display if a function had over 50 args then the * final bunch of them will be bundled up in to a list (as if for &rest). */ for (i=1; i<=nargs; i++) { err_printf("Arg%d: ", i); loop_print_error(stack[i-nargs]); err_printf("\n"); ignore_exception(); } popv(nargs); pop2(codevec, litvec); flip_exception(); return nil; } pop2(codevec, litvec); return r; } /* * Now I have carbon copies of the above, but with some print statements * inserted. These are installed when a function is marked for trace * output. */ Lisp_Object unpack_mv(Lisp_Object nil, Lisp_Object r) { Lisp_Object *p = &mv_1; exit_count = 0; *p = nil; while (r != nil) { *p++ = qcar(r); r = qcdr(r); exit_count++; } return mv_1; } Lisp_Object MS_CDECL tracebytecoded0(Lisp_Object def, int nargs, ...) { Lisp_Object r, nil=C_nil; if (nargs != 0) return error(2, err_wrong_no_args, name_from(def), fixnum_of_int((int32)nargs)); push3(litvec, codevec, def); freshline_trace(); trace_entering("Entering "); loop_print_trace(name_from(def)); trace_printf(" (no args)\n"); nil = C_nil; if (exception_pending()) { popv(3); return nil; } def = stack[0]; r = bytestream_interpret(qcar(def)-2, qcdr(def), stack); nil = C_nil; if (exception_pending()) { flip_exception(); popv(1); pop2(codevec, litvec); flip_exception(); return nil; } #ifdef COMMON r = Lmv_list(nil, r); if (exception_pending()) { flip_exception(); popv(1); pop2(codevec, litvec); flip_exception(); return nil; } #endif pop(def); push(r); freshline_trace(); loop_print_trace(name_from(def)); nil = C_nil; if (!exception_pending()) { trace_printf(" = "); loop_print_trace(r); trace_exiting("\n"); } if (exception_pending()) { flip_exception(); popv(1); pop2(codevec, litvec); flip_exception(); return nil; } pop3(r, codevec, litvec); #ifdef COMMON r = unpack_mv(nil, r); #endif return r; } Lisp_Object tracebytecoded1(Lisp_Object def, Lisp_Object a) { Lisp_Object r; Lisp_Object nil = C_nil; push4(litvec, codevec, def, a); freshline_trace(); trace_entering("Entering "); loop_print_trace(name_from(def)); nil = C_nil; if (exception_pending()) { flip_exception(); popv(2); pop2(codevec, litvec); flip_exception(); return nil; } trace_printf(" (1 arg)\nArg1: "); loop_print_trace(stack[0]); trace_printf("\n"); nil = C_nil; if (exception_pending()) { flip_exception(); popv(2); pop2(codevec, litvec); flip_exception(); return nil; } stackcheck0(4); def = stack[-1]; r = bytestream_interpret(qcar(def)-2, qcdr(def), stack-1); nil = C_nil; if (exception_pending()) { flip_exception(); stack++; pop(a); popv(1); pop2(codevec, litvec); if ((exit_reason & UNWIND_ERROR) != 0) { err_printf("Arg1: "); loop_print_error(a); err_printf("\n"); ignore_exception(); } flip_exception(); return nil; } #ifdef COMMON r = Lmv_list(nil, r); if (exception_pending()) { flip_exception(); popv(1); pop2(codevec, litvec); flip_exception(); return nil; } #endif pop(def); push(r); freshline_trace(); loop_print_trace(name_from(def)); trace_printf(" = "); loop_print_trace(r); trace_exiting("\n"); pop3(r, codevec, litvec); #ifdef COMMON r = unpack_mv(nil, r); #endif return r; } Lisp_Object tracebytecoded2(Lisp_Object def, Lisp_Object a, Lisp_Object b) { Lisp_Object r; Lisp_Object nil = C_nil; push5(litvec, codevec, def, a, b); freshline_trace(); trace_entering("Entering "); loop_print_trace(name_from(def)); nil = C_nil; if (exception_pending()) { flip_exception(); popv(3); pop2(codevec, litvec); flip_exception(); return nil; } trace_printf(" (2 args)\nArg1: "); loop_print_trace(stack[-1]); nil = C_nil; if (exception_pending()) { flip_exception(); popv(3); pop2(codevec, litvec); flip_exception(); return nil; } trace_printf("\nArg2: "); loop_print_trace(stack[0]); trace_printf("\n"); nil = C_nil; if (exception_pending()) { flip_exception(); popv(3); pop2(codevec, litvec); flip_exception(); return nil; } stackcheck0(5); def = stack[-2]; r = bytestream_interpret(qcar(def)-2, qcdr(def), stack-2); nil = C_nil; if (exception_pending()) { flip_exception(); stack += 2; if ((exit_reason & UNWIND_ERROR) != 0) { err_printf("Arg1: "); loop_print_error(stack[-1]); err_printf("\n"); ignore_exception(); err_printf("Arg2: "); loop_print_error(stack[0]); err_printf("\n"); ignore_exception(); } popv(3); pop2(codevec, litvec); flip_exception(); return nil; } #ifdef COMMON r = Lmv_list(nil, r); if (exception_pending()) { flip_exception(); popv(1); pop2(codevec, litvec); flip_exception(); return nil; } #endif pop(def); push(r); freshline_trace(); loop_print_trace(name_from(def)); trace_printf(" = "); loop_print_trace(r); trace_exiting("\n"); pop3(r, codevec, litvec); #ifdef COMMON r = unpack_mv(nil, r); #endif return r; } Lisp_Object MS_CDECL tracebytecoded3(Lisp_Object def, int nargs, ...) { va_list aa; Lisp_Object r, a, b, c; Lisp_Object nil = C_nil; if (nargs != 3) return error(2, err_wrong_no_args, name_from(def), fixnum_of_int((int32)nargs)); va_start(aa, nargs); a = va_arg(aa, Lisp_Object); b = va_arg(aa, Lisp_Object); c = va_arg(aa, Lisp_Object); va_end(aa); push2(litvec, codevec); push4(def, a, b, c); freshline_trace(); trace_entering("Entering "); loop_print_trace(name_from(def)); nil = C_nil; if (exception_pending()) { flip_exception(); popv(4); pop2(codevec, litvec); flip_exception(); return nil; } trace_printf(" (3 args)\nArg1: "); loop_print_trace(stack[-2]); nil = C_nil; if (exception_pending()) { flip_exception(); popv(4); pop2(codevec, litvec); flip_exception(); return nil; } trace_printf("\nArg2: "); loop_print_trace(stack[-1]); nil = C_nil; if (exception_pending()) { flip_exception(); popv(4); pop2(codevec, litvec); flip_exception(); return nil; } trace_printf("\nArg3: "); loop_print_trace(stack[0]); trace_printf("\n"); nil = C_nil; if (exception_pending()) { flip_exception(); popv(4); pop2(codevec, litvec); flip_exception(); return nil; } stackcheck0(6); def = stack[-3]; r = bytestream_interpret(qcar(def)-2, qcdr(def), stack-3); nil = C_nil; if (exception_pending()) { flip_exception(); stack += 3; if ((exit_reason & UNWIND_ERROR) != 0) { err_printf("Arg1: "); loop_print_error(stack[-2]); err_printf("\n"); ignore_exception(); err_printf("Arg2: "); loop_print_error(stack[-1]); err_printf("\n"); ignore_exception(); err_printf("Arg3: "); loop_print_error(stack[0]); err_printf("\n"); ignore_exception(); } popv(4); pop2(codevec, litvec); flip_exception(); return nil; } #ifdef COMMON r = Lmv_list(nil, r); if (exception_pending()) { flip_exception(); popv(1); pop2(codevec, litvec); flip_exception(); return nil; } #endif pop(def); push(r); freshline_trace(); loop_print_trace(name_from(def)); trace_printf(" = "); loop_print_trace(r); trace_exiting("\n"); pop3(r, codevec, litvec); #ifdef COMMON r = unpack_mv(nil, r); #endif return r; } Lisp_Object MS_CDECL tracebytecodedn(Lisp_Object def, int nargs, ...) { /* * The messing about here is to get the (unknown number of) args * into a nice neat vector so that they can be indexed into. If I knew * that the args were in consecutive locations on the stack I could * probably save a copying operation. */ Lisp_Object r; Lisp_Object nil = C_nil; int i; Lisp_Object *stack_save = stack; va_list a; push3(litvec, codevec, def); if (nargs != 0) { va_start(a, nargs); push_args(a, nargs); } stackcheck1(stack-stack_save, def); freshline_trace(); trace_entering("Entering"); loop_print_trace(name_from(def)); trace_printf(" (%d args)\n", nargs); for (i=1; i<=nargs; i++) { trace_printf("Arg%d: ", i); loop_print_trace(stack[i-nargs]); trace_printf("\n"); } def = stack[-nargs]; r = qcar(def); if (nargs != ((unsigned char *)data_of_bps(r))[0]) { popv(nargs+3); return error(2, err_wrong_no_args, name_from(def), fixnum_of_int((int32)nargs)); } r = bytestream_interpret(r-1, qcdr(def), stack-nargs); nil = C_nil; if (exception_pending()) { flip_exception(); stack += nargs; if ((exit_reason & UNWIND_ERROR) != 0) for (i=1; i<=nargs; i++) { err_printf("Arg%d: ", i); loop_print_error(stack[i-nargs]); err_printf("\n"); ignore_exception(); } popv(nargs+1); pop2(codevec, litvec); flip_exception(); return nil; } #ifdef COMMON r = Lmv_list(nil, r); if (exception_pending()) { flip_exception(); popv(1); pop2(codevec, litvec); flip_exception(); return nil; } #endif pop(def); push(r); freshline_trace(); loop_print_trace(name_from(def)); trace_printf(" = "); loop_print_trace(r); trace_exiting("\n"); pop3(r, codevec, litvec); #ifdef COMMON r = unpack_mv(nil, r); #endif return r; } int doubled_execution = 0; Lisp_Object MS_CDECL double_bytecoded0(Lisp_Object def, int nargs, ...) { Lisp_Object nil=C_nil; if (nargs != 0) return error(2, err_wrong_no_args, name_from(def), fixnum_of_int((int32)nargs)); push2(litvec, codevec); stackcheck1(2, def); if (!doubled_execution) { push3(def, litvec, codevec); doubled_execution = 1; bytestream_interpret(qcar(def)-2, qcdr(def), stack); nil = C_nil; pop3(codevec, litvec, def); if (!exception_pending()) def = bytestream_interpret(qcar(def)-2, qcdr(def), stack); doubled_execution = 0; } else def = bytestream_interpret(qcar(def)-2, qcdr(def), stack); nil = C_nil; if (exception_pending()) { flip_exception(); pop2(codevec, litvec); flip_exception(); return nil; } pop2(codevec, litvec); return def; } Lisp_Object double_bytecoded1(Lisp_Object def, Lisp_Object a) { Lisp_Object r; Lisp_Object nil = C_nil; push3(litvec, codevec, a); stackcheck1(3, def); if (!doubled_execution) { push4(def, litvec, codevec, a); doubled_execution = 1; bytestream_interpret(qcar(def)-2, qcdr(def), stack-1); nil = C_nil; pop3(codevec, litvec, def); if (!exception_pending()) r = bytestream_interpret(qcar(def)-2, qcdr(def), stack-1); doubled_execution = 0; } else r = bytestream_interpret(qcar(def)-2, qcdr(def), stack-1); nil = C_nil; if (exception_pending()) { flip_exception(); stack++; pop3(a, codevec, litvec); if ((exit_reason & UNWIND_ERROR) != 0) { err_printf("Arg1: "); loop_print_error(a); err_printf("\n"); ignore_exception(); } flip_exception(); return nil; } pop2(codevec, litvec); return r; } Lisp_Object double_bytecoded2(Lisp_Object def, Lisp_Object a, Lisp_Object b) { Lisp_Object r; Lisp_Object nil = C_nil; push4(litvec, codevec, a, b); stackcheck1(4, def); if (!doubled_execution) { push5(def, litvec, codevec, a, b); doubled_execution = 1; bytestream_interpret(qcar(def)-2, qcdr(def), stack-2); nil = C_nil; pop3(codevec, litvec, def); if (!exception_pending()) r = bytestream_interpret(qcar(def)-2, qcdr(def), stack-2); doubled_execution = 0; } else r = bytestream_interpret(qcar(def)-2, qcdr(def), stack-2); nil = C_nil; if (exception_pending()) { flip_exception(); stack += 2; if ((exit_reason & UNWIND_ERROR) != 0) { err_printf("Arg 1: "); loop_print_error(stack[-1]); err_printf("\n"); ignore_exception(); err_printf("Arg 2: "); loop_print_error(stack[0]); err_printf("\n"); ignore_exception(); } popv(2); pop2(codevec, litvec); flip_exception(); return nil; } pop2(codevec, litvec); return r; } Lisp_Object MS_CDECL double_bytecoded3(Lisp_Object def, int nargs, ...) { va_list aa; Lisp_Object r, a, b, c; Lisp_Object nil = C_nil; if (nargs != 3) return error(2, err_wrong_no_args, name_from(def), fixnum_of_int((int32)nargs)); va_start(aa, nargs); a = va_arg(aa, Lisp_Object); b = va_arg(aa, Lisp_Object); c = va_arg(aa, Lisp_Object); va_end(aa); push5(litvec, codevec, a, b, c); stackcheck1(5, def); if (!doubled_execution) { push6(def, litvec, codevec, a, b, c); doubled_execution = 1; bytestream_interpret(qcar(def)-2, qcdr(def), stack-3); nil = C_nil; pop3(codevec, litvec, def); if (!exception_pending()) r = bytestream_interpret(qcar(def)-2, qcdr(def), stack-3); doubled_execution = 0; } else r = bytestream_interpret(qcar(def)-2, qcdr(def), stack-3); nil = C_nil; if (exception_pending()) { flip_exception(); stack += 3; if ((exit_reason & UNWIND_ERROR) != 0) { err_printf("Arg1: "); loop_print_error(stack[-2]); err_printf("\n"); ignore_exception(); err_printf("Arg2: "); loop_print_error(stack[-1]); err_printf("\n"); ignore_exception(); err_printf("Arg3: "); loop_print_error(stack[0]); err_printf("\n"); ignore_exception(); } popv(3); pop2(codevec, litvec); flip_exception(); return nil; } pop2(codevec, litvec); return r; } Lisp_Object MS_CDECL double_bytecodedn(Lisp_Object def, int nargs, ...) { Lisp_Object r; Lisp_Object nil = C_nil; int i; Lisp_Object *stack_save = stack; va_list a; push2(litvec, codevec); if (nargs != 0) { va_start(a, nargs); push_args(a, nargs); } stackcheck1(stack-stack_save, def); r = qcar(def); if (nargs != ((unsigned char *)data_of_bps(r))[0]) { popv(nargs+2); return error(2, err_wrong_no_args, name_from(def), fixnum_of_int((int32)nargs)); } trace_printf("Function with > 3 args not doubled\n"); r = bytestream_interpret(r-1, qcdr(def), stack-nargs); nil = C_nil; if (exception_pending()) { flip_exception(); stack += nargs; if ((exit_reason & UNWIND_ERROR) != 0) for (i=1; i<=nargs; i++) { err_printf("Arg%d: ", i); loop_print_error(stack[i-nargs]); err_printf("\n"); ignore_exception(); } popv(nargs); pop2(codevec, litvec); flip_exception(); return nil; } pop2(codevec, litvec); return r; } /* * The code that follows is just used to support compiled code that * has &optional or &rest arguments. */ Lisp_Object byteopt1(Lisp_Object def, Lisp_Object a) { return byteoptn(def, 1, a); } Lisp_Object byteopt2(Lisp_Object def, Lisp_Object a, Lisp_Object b) { return byteoptn(def, 2, a, b); } static Lisp_Object vbyteoptn(Lisp_Object def, int nargs, va_list a, Lisp_Object dflt) { Lisp_Object r; Lisp_Object nil = C_nil; int i, wantargs, wantopts; Lisp_Object *stack_save = stack; push2(litvec, codevec); /* * Maybe I should raise an exception (continuable error) if too many args * are provided - for now I just silently ignore the excess. */ if (nargs != 0) push_args(a, nargs); else va_end(a); stackcheck1(stack-stack_save, def); r = qcar(def); wantargs = ((unsigned char *)data_of_bps(r))[0]; wantopts = ((unsigned char *)data_of_bps(r))[1]; if (nargs < wantargs || nargs > wantargs+wantopts) { popv(nargs); pop2(codevec, litvec) return error(2, err_wrong_no_args, name_from(def), fixnum_of_int((int32)nargs)); } while (nargs < wantargs+wantopts) { push(dflt); /* Provide value for all optional args */ nargs++; } stackcheck1(stack-stack_save, def); r = qcar(def); r = bytestream_interpret(r, qcdr(def), stack-nargs); nil = C_nil; if (exception_pending()) { flip_exception(); stack += nargs; if ((exit_reason & UNWIND_ERROR) != 0) for (i=1; i<=nargs; i++) { err_printf("Arg%d: ", i); loop_print_error(stack[i-nargs]); err_printf("\n"); ignore_exception(); } popv(nargs); pop2(codevec, litvec); flip_exception(); return nil; } pop2(codevec, litvec); return r; } Lisp_Object MS_CDECL byteoptn(Lisp_Object def, int nargs, ...) { va_list a; va_start(a, nargs); return vbyteoptn(def, nargs, a, C_nil); } Lisp_Object hardopt1(Lisp_Object def, Lisp_Object a) { return hardoptn(def, 1, a); } Lisp_Object hardopt2(Lisp_Object def, Lisp_Object a, Lisp_Object b) { return hardoptn(def, 2, a, b); } Lisp_Object MS_CDECL hardoptn(Lisp_Object def, int nargs, ...) { va_list a; va_start(a, nargs); return vbyteoptn(def, nargs, a, SPID_NOARG); } Lisp_Object byteoptrest1(Lisp_Object def, Lisp_Object a) { return byteoptrestn(def, 1, a); } Lisp_Object byteoptrest2(Lisp_Object def, Lisp_Object a, Lisp_Object b) { return byteoptrestn(def, 2, a, b); } static Lisp_Object vbyterestn(Lisp_Object def, int nargs, va_list a, Lisp_Object dflt) { Lisp_Object r; Lisp_Object nil = C_nil; int i, wantargs, wantopts; Lisp_Object *stack_save = stack; push2(litvec, codevec); if (nargs != 0) push_args(a, nargs); else va_end(a); stackcheck1(stack-stack_save, def); r = qcar(def); wantargs = ((unsigned char *)data_of_bps(r))[0]; wantopts = ((unsigned char *)data_of_bps(r))[1]; if (nargs < wantargs) { popv(nargs+2); return error(2, err_wrong_no_args, name_from(def), fixnum_of_int((int32)nargs)); } while (nargs < wantargs+wantopts) { push(dflt); /* Provide value for all optional args */ nargs++; } { Lisp_Object rest = nil; while (nargs > wantargs+wantopts) { Lisp_Object w = stack[0]; stack[0] = def; rest = cons(w, rest); errexitn(nargs+2); pop(def); nargs--; } push(rest); nargs++; } stackcheck1(stack-stack_save, def); r = qcar(def); r = bytestream_interpret(r, qcdr(def), stack-nargs); nil = C_nil; if (exception_pending()) { flip_exception(); stack += nargs; if ((exit_reason & UNWIND_ERROR) != 0) for (i=1; i<=nargs; i++) { err_printf("Arg%d: ", i); loop_print_error(stack[i-nargs]); err_printf("\n"); ignore_exception(); } popv(nargs); pop2(codevec, litvec); flip_exception(); return nil; } pop2(codevec, litvec); return r; } Lisp_Object MS_CDECL byteoptrestn(Lisp_Object def, int nargs, ...) { va_list a; va_start(a, nargs); return vbyterestn(def, nargs, a, C_nil); } Lisp_Object hardoptrest1(Lisp_Object def, Lisp_Object a) { return hardoptrestn(def, 1, a); } Lisp_Object hardoptrest2(Lisp_Object def, Lisp_Object a, Lisp_Object b) { return hardoptrestn(def, 2, a, b); } Lisp_Object MS_CDECL hardoptrestn(Lisp_Object def, int nargs, ...) { va_list a; va_start(a, nargs); return vbyterestn(def, nargs, a, SPID_NOARG); } /* * Next the execution-doubling versions of the &opt/&rest interfaces */ Lisp_Object double_byteopt1(Lisp_Object def, Lisp_Object a) { return double_byteoptn(def, 1, a); } Lisp_Object double_byteopt2(Lisp_Object def, Lisp_Object a, Lisp_Object b) { return double_byteoptn(def, 2, a, b); } static Lisp_Object double_vbyteoptn(Lisp_Object def, int nargs, va_list a, Lisp_Object dflt) { Lisp_Object r; Lisp_Object nil = C_nil; int i, wantargs, wantopts; Lisp_Object *stack_save = stack; push2(litvec, codevec); /* * Maybe I should raise an exception (continuable error) if too many args * are provided - for now I just silently ignore th excess. */ if (nargs != 0) push_args(a, nargs); else va_end(a); stackcheck1(stack-stack_save, def); r = qcar(def); wantargs = ((unsigned char *)data_of_bps(r))[0]; wantopts = ((unsigned char *)data_of_bps(r))[1]; if (nargs < wantargs || nargs > wantargs+wantopts) { popv(nargs); pop2(codevec, litvec) return error(2, err_wrong_no_args, name_from(def), fixnum_of_int((int32)nargs)); } while (nargs < wantargs+wantopts) { push(dflt); /* Provide value for all optional args */ nargs++; } stackcheck1(stack-stack_save, def); trace_printf("Function with simple &opt arg not doubled\n"); r = qcar(def); r = bytestream_interpret(r, qcdr(def), stack-nargs); nil = C_nil; if (exception_pending()) { flip_exception(); stack += nargs; if ((exit_reason & UNWIND_ERROR) != 0) for (i=1; i<=nargs; i++) { err_printf("Arg%d: ", i); loop_print_error(stack[i-nargs]); err_printf("\n"); ignore_exception(); } popv(nargs); pop2(codevec, litvec); flip_exception(); return nil; } pop2(codevec, litvec); return r; } Lisp_Object MS_CDECL double_byteoptn(Lisp_Object def, int nargs, ...) { va_list a; va_start(a, nargs); return double_vbyteoptn(def, nargs, a, C_nil); } Lisp_Object double_hardopt1(Lisp_Object def, Lisp_Object a) { return double_hardoptn(def, 1, a); } Lisp_Object double_hardopt2(Lisp_Object def, Lisp_Object a, Lisp_Object b) { return double_hardoptn(def, 2, a, b); } Lisp_Object MS_CDECL double_hardoptn(Lisp_Object def, int nargs, ...) { va_list a; va_start(a, nargs); return double_vbyteoptn(def, nargs, a, SPID_NOARG); } Lisp_Object double_byteoptrest1(Lisp_Object def, Lisp_Object a) { return double_byteoptrestn(def, 1, a); } Lisp_Object double_byteoptrest2(Lisp_Object def, Lisp_Object a, Lisp_Object b) { return double_byteoptrestn(def, 2, a, b); } static Lisp_Object double_vbyterestn(Lisp_Object def, int nargs, va_list a, Lisp_Object dflt) { Lisp_Object r; Lisp_Object nil = C_nil; int i, wantargs, wantopts; Lisp_Object *stack_save = stack; push2(litvec, codevec); if (nargs != 0) push_args(a, nargs); else va_end(a); stackcheck1(stack-stack_save, def); r = qcar(def); wantargs = ((unsigned char *)data_of_bps(r))[0]; wantopts = ((unsigned char *)data_of_bps(r))[1]; if (nargs < wantargs) { popv(nargs+2); return error(2, err_wrong_no_args, name_from(def), fixnum_of_int((int32)nargs)); } while (nargs < wantargs+wantopts) { push(dflt); /* Provide value for all optional args */ nargs++; } { Lisp_Object rest = nil; while (nargs > wantargs+wantopts) { Lisp_Object w = stack[0]; stack[0] = def; rest = cons(w, rest); errexitn(nargs+2); pop(def); nargs--; } push(rest); nargs++; } stackcheck1(stack-stack_save, def); trace_printf("Function with simple &rest arg not doubled\n"); r = qcar(def); r = bytestream_interpret(r, qcdr(def), stack-nargs); nil = C_nil; if (exception_pending()) { flip_exception(); stack += nargs; if ((exit_reason & UNWIND_ERROR) != 0) for (i=1; i<=nargs; i++) { err_printf("Arg%d: ", i); loop_print_error(stack[i-nargs]); err_printf("\n"); ignore_exception(); } popv(nargs); pop2(codevec, litvec); flip_exception(); return nil; } pop2(codevec, litvec); return r; } Lisp_Object MS_CDECL double_byteoptrestn(Lisp_Object def, int nargs, ...) { va_list a; va_start(a, nargs); return double_vbyterestn(def, nargs, a, C_nil); } Lisp_Object double_hardoptrest1(Lisp_Object def, Lisp_Object a) { return double_hardoptrestn(def, 1, a); } Lisp_Object double_hardoptrest2(Lisp_Object def, Lisp_Object a, Lisp_Object b) { return double_hardoptrestn(def, 2, a, b); } Lisp_Object MS_CDECL double_hardoptrestn(Lisp_Object def, int nargs, ...) { va_list a; va_start(a, nargs); return double_vbyterestn(def, nargs, a, SPID_NOARG); } Lisp_Object tracebyteopt1(Lisp_Object def, Lisp_Object a) { return tracebyteoptn(def, 1, a); } Lisp_Object tracebyteopt2(Lisp_Object def, Lisp_Object a, Lisp_Object b) { return tracebyteoptn(def, 2, a, b); } static Lisp_Object vtracebyteoptn(Lisp_Object def, int nargs, va_list a, Lisp_Object dflt) { Lisp_Object r; Lisp_Object nil = C_nil; int i, wantargs, wantopts; Lisp_Object *stack_save = stack; push3(litvec, codevec, def); /* * Maybe I should raise an exception (continuable error) if too many args * are provided - for now I just silently ignore th excess. */ if (nargs != 0) push_args(a, nargs); else va_end(a); stackcheck1(stack-stack_save, def); r = qcar(def); wantargs = ((unsigned char *)data_of_bps(r))[0]; wantopts = ((unsigned char *)data_of_bps(r))[1]; if (nargs < wantargs || nargs > wantargs+wantopts) { popv(nargs+1); pop2(codevec, litvec) return error(2, err_wrong_no_args, name_from(def), fixnum_of_int((int32)nargs)); } while (nargs < wantargs+wantopts) { push(dflt); /* Provide value for all optional args */ nargs++; } stackcheck1(stack-stack_save, def); freshline_trace(); loop_print_trace(name_from(def)); trace_printf(" (%d args)\n", nargs); for (i=1; i<=nargs; i++) { trace_printf("Arg%d: ", i); loop_print_trace(stack[i-nargs]); trace_printf("\n"); } def = stack[-nargs]; r = qcar(def); r = bytestream_interpret(r, qcdr(def), stack-nargs); nil = C_nil; if (exception_pending()) { flip_exception(); stack += nargs; if ((exit_reason & UNWIND_ERROR) != 0) for (i=1; i<=nargs; i++) { err_printf("Arg%d: ", i); loop_print_error(stack[i-nargs]); err_printf("\n"); ignore_exception(); } popv(nargs+1); pop2(codevec, litvec); flip_exception(); return nil; } #ifdef COMMON r = Lmv_list(nil, r); if (exception_pending()) { flip_exception(); popv(1); pop2(codevec, litvec); flip_exception(); return nil; } #endif pop(def); push(r); freshline_trace(); loop_print_trace(name_from(def)); nil = C_nil; if (!exception_pending()) { trace_printf(" = "); loop_print_trace(r); trace_printf("\n"); } if (exception_pending()) { flip_exception(); popv(1); pop2(codevec, litvec); flip_exception(); return nil; } pop3(r, codevec, litvec); #ifdef COMMON r = unpack_mv(nil, r); #endif return r; } Lisp_Object MS_CDECL tracebyteoptn(Lisp_Object def, int nargs, ...) { va_list a; va_start(a, nargs); return vtracebyteoptn(def, nargs, a, C_nil); } Lisp_Object tracehardopt1(Lisp_Object def, Lisp_Object a) { return tracehardoptn(def, 1, a); } Lisp_Object tracehardopt2(Lisp_Object def, Lisp_Object a, Lisp_Object b) { return tracehardoptn(def, 2, a, b); } Lisp_Object MS_CDECL tracehardoptn(Lisp_Object def, int nargs, ...) { va_list a; va_start(a, nargs); return vtracebyteoptn(def, nargs, a, SPID_NOARG); } Lisp_Object tracebyteoptrest1(Lisp_Object def, Lisp_Object a) { return tracebyteoptrestn(def, 1, a); } Lisp_Object tracebyteoptrest2(Lisp_Object def, Lisp_Object a, Lisp_Object b) { return tracebyteoptrestn(def, 2, a, b); } static Lisp_Object vtracebyterestn(Lisp_Object def, int nargs, va_list a, Lisp_Object dflt) { Lisp_Object r; Lisp_Object nil = C_nil; int i, wantargs, wantopts; Lisp_Object *stack_save = stack; push3(litvec, codevec, def); if (nargs != 0) push_args(a, nargs); else va_end(a); stackcheck1(stack-stack_save, def); r = qcar(def); wantargs = ((unsigned char *)data_of_bps(r))[0]; wantopts = ((unsigned char *)data_of_bps(r))[1]; if (nargs < wantargs) { popv(nargs+2); return error(2, err_wrong_no_args, name_from(def), fixnum_of_int((int32)nargs)); } while (nargs < wantargs+wantopts) { push(dflt); /* Provide value for all optional args */ nargs++; } { Lisp_Object rest = nil; while (nargs > wantargs+wantopts) { Lisp_Object w = stack[0]; stack[0] = def; rest = cons(w, rest); errexitn(nargs+2); pop(def); nargs--; } push(rest); nargs++; } stackcheck1(stack-stack_save, def); freshline_trace(); loop_print_trace(name_from(def)); trace_printf(" (%d args)\n", nargs); for (i=1; i<=nargs; i++) { trace_printf("Arg%d: ", i); loop_print_trace(stack[i-nargs]); trace_printf("\n"); } def = stack[-nargs]; r = qcar(def); r = bytestream_interpret(r, qcdr(def), stack-nargs); nil = C_nil; if (exception_pending()) { flip_exception(); stack += nargs; if ((exit_reason & UNWIND_ERROR) != 0) for (i=1; i<=nargs; i++) { err_printf("Arg%d: ", i); loop_print_error(stack[i-nargs]); err_printf("\n"); ignore_exception(); } popv(nargs+1); pop2(codevec, litvec); flip_exception(); return nil; } #ifdef COMMON r = Lmv_list(nil, r); if (exception_pending()) { flip_exception(); popv(1); pop2(codevec, litvec); flip_exception(); return nil; } #endif pop(def); push(r); freshline_trace(); loop_print_trace(name_from(def)); nil = C_nil; if (!exception_pending()) { trace_printf(" = "); loop_print_trace(r); trace_printf("\n"); } if (exception_pending()) { flip_exception(); popv(1); pop2(codevec, litvec); flip_exception(); return nil; } pop3(r, codevec, litvec); #ifdef COMMON r = unpack_mv(nil, r); #endif return r; } Lisp_Object MS_CDECL tracebyteoptrestn(Lisp_Object def, int nargs, ...) { va_list a; va_start(a, nargs); return vtracebyterestn(def, nargs, a, C_nil); } Lisp_Object tracehardoptrest1(Lisp_Object def, Lisp_Object a) { return tracehardoptrestn(def, 1, a); } Lisp_Object tracehardoptrest2(Lisp_Object def, Lisp_Object a, Lisp_Object b) { return tracehardoptrestn(def, 2, a, b); } Lisp_Object MS_CDECL tracehardoptrestn(Lisp_Object def, int nargs, ...) { va_list a; va_start(a, nargs); return vtracebyterestn(def, nargs, a, SPID_NOARG); } static Lisp_Object Lis_spid(Lisp_Object nil, Lisp_Object a) { /* Used in compilation for optional args */ return onevalue(Lispify_predicate(is_spid(a))); } static Lisp_Object Lspid_to_nil(Lisp_Object nil, Lisp_Object a) { /* Used in compilation for optional args */ if (is_spid(a)) a = nil; return onevalue(a); } static Lisp_Object MS_CDECL Lload_spid(Lisp_Object nil, int nargs, ...) { /* Used in compilation of UNWIND-PROTECT */ CSL_IGNORE(nil); CSL_IGNORE(nargs); return onevalue(SPID_PROTECT); } Lisp_Object Lmv_list(Lisp_Object nil, Lisp_Object a) /* * This does a (multiple-value-list A) on just one form. It must be used * carefully so that the value-count information does not get lost between * the evaluation of A and calling this code. */ { #ifdef COMMON Lisp_Object r, *save_stack = stack; int i, x = exit_count; stackcheck1(0, a); if (x > 0) push(a); for (i=2; i<=x; i++) push((&work_0)[i]); r = nil; for (i=0; i<x; i++) { Lisp_Object w; pop(w); r = cons(w, r); nil = C_nil; if (exception_pending()) { stack = save_stack; return nil; } } return onevalue(r); #else CSL_IGNORE(nil); return ncons(a); #endif } /* * In these tables there are some functions that would need adjusting * for a Common Lisp compiler, since they take different numbers of * args in Common and Standard Lisp. * This means, to be specific: * * Lgensym Lread Latan Ltruncate Lfloat * Lintern Lmacroexpand Lmacroexpand_1 * Lrandom Lunintern Lappend Leqn Lgcd * Lgeq Lgreaterp Llcm Lleq Llessp * Lquotient * * In these cases (at least!) the Common Lisp version of the compiler will * need to avoid generating the call that uses this table. * * Some functions are missing from the list here because they seemed * critical enough to be awarded single-byte opcodes or because the * compiler always expands them away - car through cddddr are the main * cases, together with eq and equal. */ n_args *zero_arg_functions[] = { Lbatchp, /* 0 */ Ldate, /* 1 */ Leject, /* 2 */ Lerror0, /* 3 */ Lgctime, /* 4 */ Lgensym, /* 5 */ Llposn, /* 6 */ Lnext_random, /* 7 */ Lposn, /* 8 */ Lread, /* 9 */ Lreadch, /* 10 */ Lterpri, /* 11 */ Ltime, /* 12 */ Ltyi, /* 13 */ Lload_spid, /* 14 */ /* ONLY used in compiled code */ NULL }; one_args *one_arg_functions[] = { Labsval, /* 0 */ Ladd1, /* 1 */ Latan, /* 2 */ Lapply0, /* 3 */ Latom, /* 4 */ Lboundp, /* 5 */ Lchar_code, /* 6 */ Lclose, /* 7 */ Lcodep, /* 8 */ Lcompress, /* 9 */ Lconstantp, /* 10 */ Ldigitp, /* 11 */ Lendp, /* 12 */ Leval, /* 13 */ Levenp, /* 14 */ Levlis, /* 15 */ Lexplode, /* 16 */ Lexplode2lc, /* 17 */ Lexplodec, /* 18 */ Lfixp, /* 19 */ Lfloat, /* 20 */ Lfloatp, /* 21 */ Lsymbol_specialp, /* 22 */ Lgc, /* 23 */ Lgensym1, /* 24 */ Lgetenv, /* 25 */ Lsymbol_globalp, /* 26 */ Liadd1, /* 27 */ Lsymbolp, /* 28 */ Liminus, /* 29 */ Liminusp, /* 30 */ Lindirect, /* 31 */ Lintegerp, /* 32 */ Lintern, /* 33 */ Lisub1, /* 34 */ Llength, /* 35 */ Llengthc, /* 36 */ Llinelength, /* 37 */ Lalpha_char_p, /* 38 */ Lload_module, /* 39 */ Llognot, /* 40 */ Lmacroexpand, /* 41 */ Lmacroexpand_1, /* 42 */ Lmacro_function, /* 43 */ Lget_bps, /* 44 */ Lmake_global, /* 45 */ Lsmkvect, /* 46 */ Lmake_special, /* 47 */ Lminus, /* 48 */ Lminusp, /* 49 */ Lmkvect, /* 50 */ Lmodular_minus, /* 51 */ Lmodular_number, /* 52 */ Lmodular_reciprocal, /* 53 */ Lnull, /* 54 */ Loddp, /* 55 */ Lonep, /* 56 */ Lpagelength, /* 57 */ Lconsp, /* 58 */ Lplist, /* 59 */ Lplusp, /* 60 */ Lprin, /* 61 */ Lprinc, /* 62 */ Lprint, /* 63 */ Lprintc, /* 64 */ Lrandom, /* 65 */ Lrational, /* 66 */ Lrdf1, /* 67 */ Lrds, /* 68 */ Lremd, /* 69 */ Lreverse, /* 70 */ Lnreverse, /* 71 */ Lwhitespace_char_p, /* 72 */ Lset_small_modulus, /* 73 */ Lxtab, /* 74 */ Lspecial_char, /* 75 */ Lspecial_form_p, /* 76 */ Lspool, /* 77 */ Lstop, /* 78 */ Lstringp, /* 79 */ Lsub1, /* 80 */ Lsymbol_env, /* 81 */ Lsymbol_function, /* 82 */ Lsymbol_name, /* 83 */ Lsymbol_value, /* 84 */ Lsystem, /* 85 */ Ltruncate, /* 86 */ Lttab, /* 87 */ Ltyo, /* 88 */ Lunintern, /* 89 */ Lunmake_global, /* 90 */ Lunmake_special, /* 91 */ Lupbv, /* 92 */ Lsimple_vectorp, /* 93 */ Lverbos, /* 94 */ Lwrs, /* 95 */ Lzerop, /* 96 */ Lcar, /* 97 */ Lcdr, /* 98 */ Lcaar, /* 99 */ Lcadr, /* 100 */ Lcdar, /* 101 */ Lcddr, /* 102 */ Lcar, /* 103 */ /* Really QCAR (unchecked) */ Lcdr, /* 104 */ Lcaar, /* 105 */ Lcadr, /* 106 */ Lcdar, /* 107 */ Lcddr, /* 108 */ Lncons, /* 109 */ Lnumberp, /* 110 */ Lis_spid, /* 111 */ /* ONLY used in compiled code */ Lspid_to_nil, /* 112 */ /* ONLY used in compiled code */ Lmv_list, /* 113 */ /* ONLY used in compiled code */ NULL }; two_args *two_arg_functions[] = { Lappend, /* 0 */ Lash, /* 1 */ Lassoc, /* 2 */ Latsoc, /* 3 */ Ldeleq, /* 4 */ Ldelete, /* 5 */ Ldivide, /* 6 */ Leqcar, /* 7 */ Leql, /* 8 */ Leqn, /* 9 */ Lexpt, /* 10 */ Lflag, /* 11 */ Lflagpcar, /* 12 */ Lgcd, /* 13 */ Lgeq, /* 14 */ Lgetv, /* 15 */ Lgreaterp, /* 16 */ Lidifference, /* 17 */ Ligreaterp, /* 18 */ Lilessp, /* 19 */ Limax, /* 20 */ Limin, /* 21 */ Liplus2, /* 22 */ Liquotient, /* 23 */ Liremainder, /* 24 */ Lirightshift, /* 25 */ Litimes2, /* 26 */ Llcm, /* 27 */ Lleq, /* 28 */ Llessp, /* 29 */ Lmake_random_state, /* 30 */ Lmax2, /* 31 */ Lmember, /* 32 */ Lmemq, /* 33 */ Lmin2, /* 34 */ Lmod, /* 35 */ Lmodular_difference, /* 36 */ Lmodular_expt, /* 37 */ Lmodular_plus, /* 38 */ Lmodular_quotient, /* 39 */ Lmodular_times, /* 40 */ Lnconc, /* 41 */ Lneq, /* 42 */ Lorderp, /* 43 */ Lquotient, /* 44 */ Lrem, /* 45 */ Lremflag, /* 46 */ Lremprop, /* 47 */ Lrplaca, /* 48 */ Lrplacd, /* 49 */ Lsgetv, /* 50 */ Lset, /* 51 */ Lsmemq, /* 52 */ Lsubla, /* 53 */ Lsublis, /* 54 */ Lsymbol_set_definition, /* 55 */ Lsymbol_set_env, /* 56 */ Ltimes2, /* 57 */ Lxcons, /* 58 */ Lequal, /* 59 */ Leq, /* 60 */ Lcons, /* 61 */ Llist2, /* 62 */ Lget, /* 63 */ Lgetv, /* 64 */ /* QGETV */ Lflagp, /* 65 */ Lapply1, /* 66 */ Ldifference2, /* 67 */ Lplus2, /* 68 */ Ltimes2, /* 69 */ Lequalcar, /* 70 */ Leq, /* 71 */ /* IEQUAL */ NULL }; n_args *three_arg_functions[] = { Lbpsputv, /* 0 */ Lerrorsetn, /* 1 */ Llist2star, /* 2 */ Llist3, /* 3 */ Lputprop, /* 4 */ Lputv, /* 5 */ Lsputv, /* 6 */ Lsubst, /* 7 */ Lapply2, /* 8 */ Lacons, /* 9 */ NULL }; /* end of eval4.c */