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mirror of https://github.com/janet-lang/janet synced 2024-11-24 09:17:17 +00:00

Add simple disassembler for debugging. Does not use labels.

This commit is contained in:
Calvin Rose 2017-02-11 14:01:06 -05:00
parent 3794ec3acd
commit 9ffbdcb3e9
9 changed files with 331 additions and 89 deletions

3
.gitignore vendored
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@ -1,6 +1,9 @@
# Target
interp
# Valgrind files
vgcore.*
# Created by https://www.gitignore.io/api/c
### C ###

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@ -6,8 +6,8 @@ TARGET=interp
PREFIX=/usr/local
# C sources
HEADERS=vm.h ds.h compile.h parse.h value.h
SOURCES=main.c parse.c value.c vm.c ds.c compile.c
HEADERS=vm.h ds.h compile.h parse.h value.h disasm.h
SOURCES=main.c parse.c value.c vm.c ds.c compile.c disasm.c
OBJECTS=$(patsubst %.c,%.o,$(SOURCES))
all: $(TARGET)

153
compile.c
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@ -79,7 +79,7 @@ struct Scope {
static Slot SlotDefault() {
Slot slot;
slot.index = 0;
slot.isDud = 0;
slot.isDud = 1;
slot.isTemp = 0;
return slot;
}
@ -103,9 +103,13 @@ BufferDefine(Number, Number);
BufferDefine(UInt16, uint16_t);
BufferDefine(Int16, int16_t);
static void onError(Compiler * c) {
;
}
/* If there is an error during compilation,
* jump back to start */
#define CError(c, e) ((c)->error = (e), longjmp((c)->onError, 1))
#define CError(c, e) (onError(c), (c)->error = (e), longjmp((c)->onError, 1))
/* Push a new scope in the compiler and return
* a pointer to it for configuration. There is
@ -168,30 +172,34 @@ static uint16_t CompilerGetLocal(Compiler * c, Scope * scope) {
return scope->nextLocal++;
} else {
uint16_t ret = scope->freeHeap[0];
uint16_t left, right, current, * heap;
uint16_t * heap;
uint32_t currentIndex = 0;
if (scope->heapSize == 0) {
CError(c, "Invalid freeing of slot.");
}
heap = scope->freeHeap;
heap[0] = heap[--scope->heapSize];
/* Min Heap Bubble down */
while (currentIndex < scope->heapSize) {
for (;;) {
uint32_t leftIndex = 2 * currentIndex + 1;
uint32_t rightIndex = leftIndex + 1;
current = heap[currentIndex];
left = heap[leftIndex];
right = heap[rightIndex];
if (current == left || current == right) {
CError(c, "Double slot allocation. Error in Compiler.");
}
if (left < current && left <= right) {
heap[currentIndex] = left;
heap[leftIndex] = current;
currentIndex = leftIndex;
} else if (right < current && right <= left) {
heap[currentIndex] = left;
heap[leftIndex] = current;
currentIndex = leftIndex;
uint32_t minIndex;
if (rightIndex >= scope->heapSize) {
if (leftIndex >= scope->heapSize) {
break;
} else {
minIndex = leftIndex;
}
} else {
break;
minIndex = heap[leftIndex] < heap[rightIndex] ? leftIndex : rightIndex;
}
if (heap[minIndex] < heap[currentIndex]) {
uint16_t temp = heap[currentIndex];
heap[currentIndex] = heap[minIndex];
heap[minIndex] = temp;
currentIndex = minIndex;
} else if (heap[minIndex] == heap[currentIndex]) {
CError(c, "Double slot allocation. Error in Compiler.");
}
}
return ret;
@ -202,7 +210,7 @@ static uint16_t CompilerGetLocal(Compiler * c, Scope * scope) {
/* Free a slot on the stack for other locals and/or
* intermediate values */
static void CompilerFreeLocal(Compiler * c, Scope * scope, uint16_t slot) {
if (slot == scope->nextLocal - 1) {
if (slot == scope->nextLocal - 1) {
--scope->nextLocal;
return;
} else {
@ -249,7 +257,7 @@ static void CompilerTrackerInit(Compiler * c, SlotTracker * tracker) {
* belong to a named local). If the slot does belong
* to a named variable, does nothing. */
static void CompilerDropSlot(Compiler * c, Scope * scope, Slot slot) {
if (slot.isTemp && !(slot.isTemp)) {
if (!slot.isDud && slot.isTemp) {
CompilerFreeLocal(c, scope, slot.index);
}
}
@ -363,9 +371,9 @@ static Slot CompileLiteral(Compiler * c, FormOptions opts, Value x) {
Slot ret = SlotDefault();
uint16_t literalIndex;
if (opts.canDrop) {
ret.isDud = 1;
return ret;
}
ret.isDud = 0;
if (opts.canChoose) {
ret.isTemp = 1;
ret.index = CompilerGetLocal(c, scope);
@ -387,14 +395,14 @@ static Slot CompileNonReferenceType(Compiler * c, FormOptions opts, Value x) {
/* If the value is not used, the compiler can just immediately
* ignore it as there are no side effects. */
if (opts.canDrop) {
ret.isDud = 1;
return ret;
}
ret.isDud = 0;
if (opts.canChoose) {
ret.index = CompilerGetLocal(c, scope);
ret.isTemp = 1;
} else {
ret.index = (uint16_t) opts.target;
ret.index = opts.target;
}
if (x.type == TYPE_NIL) {
BufferPushUInt16(c->vm, buffer, VM_OP_NIL);
@ -437,9 +445,9 @@ static Slot CompileSymbol(Compiler * c, FormOptions opts, Value sym) {
/* We can just do nothing if we are dropping the
* results, as dereferencing a symbol has no side effects. */
if (opts.canDrop) {
ret.isDud = 1;
return ret;
}
ret.isDud = 0;
if (ScopeSymbolResolve(scope, sym, &level, &index)) {
if (level > 0) {
/* We have an upvalue */
@ -499,6 +507,7 @@ static Slot CompileDict(Compiler * c, FormOptions opts, Dictionary * dict) {
}
}
if (!opts.canDrop) {
ret.isDud = 0;
/* Write Dictionary literal opcode */
if (opts.canChoose) {
ret.isTemp = 1;
@ -508,9 +517,7 @@ static Slot CompileDict(Compiler * c, FormOptions opts, Dictionary * dict) {
}
BufferPushUInt16(c->vm, buffer, VM_OP_DIC);
BufferPushUInt16(c->vm, buffer, ret.index);
BufferPushUInt16(c->vm, buffer, dict->count);
} else {
ret.isDud = 1;
BufferPushUInt16(c->vm, buffer, dict->count * 2);
}
/* Write the location of all of the arguments */
CompilerTrackerFree(c, scope, &tracker, 1);
@ -538,6 +545,7 @@ static Slot CompileArray(Compiler * c, FormOptions opts, Array * array) {
CompilerTrackerPush(c, &tracker, slot);
}
if (!opts.canDrop) {
ret.isDud = 0;
/* Write Array literal opcode */
if (opts.canChoose) {
ret.isTemp = 1;
@ -548,8 +556,6 @@ static Slot CompileArray(Compiler * c, FormOptions opts, Array * array) {
BufferPushUInt16(c->vm, buffer, VM_OP_ARR);
BufferPushUInt16(c->vm, buffer, ret.index);
BufferPushUInt16(c->vm, buffer, array->count);
} else {
ret.isDud = 1;
}
/* Write the location of all of the arguments */
CompilerTrackerFree(c, scope, &tracker, 1);
@ -575,41 +581,35 @@ static Slot CompileOperator(Compiler * c, FormOptions opts, Array * form,
FormOptions subOpts = FormOptionsDefault();
SlotTracker tracker;
uint32_t i;
/* Calculate sub options */
subOpts.canDrop = opts.canDrop;
/* Compile all of the arguments */
CompilerTrackerInit(c, &tracker);
for (i = 1; i < form->count; ++i) {
Slot slot = CompileValue(c, subOpts, form->data[i]);
if (subOpts.canDrop)
CompilerDropSlot(c, scope, slot);
else
CompilerTrackerPush(c, &tracker, slot);
CompilerTrackerPush(c, &tracker, slot);
}
if (!opts.canDrop) {
/* Write the correct opcode */
if (form->count < 2) {
if (op0 < 0) CError(c, "This operator does not take 0 arguments.");
BufferPushUInt16(c->vm, buffer, op0);
} else if (form->count == 2) {
if (op1 < 0) CError(c, "This operator does not take 1 argument.");
BufferPushUInt16(c->vm, buffer, op1);
} else if (form->count == 3) {
if (op2 < 0) CError(c, "This operator does not take 2 arguments.");
BufferPushUInt16(c->vm, buffer, op2);
} else {
if (opn < 0) CError(c, "This operator does not take n arguments.");
BufferPushUInt16(c->vm, buffer, opn);
BufferPushUInt16(c->vm, buffer, form->count - 1);
}
if (opts.canChoose) {
ret.isTemp = 1;
ret.index = CompilerGetLocal(c, scope);
} else {
ret.isDud = opts.target;
}
BufferPushUInt16(c->vm, buffer, ret.index);
ret.isDud = 0;
/* Write the correct opcode */
if (form->count < 2) {
if (op0 < 0) CError(c, "This operator does not take 0 arguments.");
BufferPushUInt16(c->vm, buffer, op0);
} else if (form->count == 2) {
if (op1 < 0) CError(c, "This operator does not take 1 argument.");
BufferPushUInt16(c->vm, buffer, op1);
} else if (form->count == 3) {
if (op2 < 0) CError(c, "This operator does not take 2 arguments.");
BufferPushUInt16(c->vm, buffer, op2);
} else {
if (opn < 0) CError(c, "This operator does not take n arguments.");
BufferPushUInt16(c->vm, buffer, opn);
BufferPushUInt16(c->vm, buffer, form->count - 1);
}
if (opts.canChoose) {
ret.isTemp = 1;
ret.index = CompilerGetLocal(c, scope);
} else {
ret.index = opts.target;
}
BufferPushUInt16(c->vm, buffer, ret.index);
/* Write the location of all of the arguments */
CompilerTrackerFree(c, scope, &tracker, reverseOperands ? 2 : 1);
return ret;
@ -650,10 +650,9 @@ static Slot CompileNot(Compiler * c, FormOptions opts, Array * form) {
/* Helper function to return nil from a form that doesn't do anything
(set, while, etc.) */
static Slot CompileReturnNil(Compiler * c, FormOptions opts) {
Slot ret;
Slot ret = SlotDefault();
/* If we need a return value, we just use nil */
if (opts.isTail) {
ret.isDud = 1;
BufferPushUInt16(c->vm, c->buffer, VM_OP_RTN);
} else if (!opts.canDrop) {
ret.isDud = 0;
@ -726,16 +725,15 @@ static Slot CompileBlock(Compiler * c, FormOptions opts, Array * form, uint32_t
uint32_t current = startIndex;
/* Compile the body */
while (current < form->count) {
subOpts.canDrop = (current != form->count - 1) || opts.canDrop;
subOpts.canDrop = (current != form->count - 1);
subOpts.isTail = opts.isTail && !subOpts.canDrop;
ret = CompileValue(c, subOpts, form->data[current]);
if (subOpts.canDrop) {
CompilerDropSlot(c, scope, ret);
ret.isDud = 1;
}
++current;
}
if (opts.isTail && !ret.isDud) {
if (opts.isTail) {
CompilerReturnSlot(c, ret);
ret.isDud = 1;
}
@ -791,9 +789,9 @@ static Slot CompileFunction(Compiler * c, FormOptions opts, Array * form) {
/* Do nothing if we can drop. This is rather pointless from
* a language point of view, but it doesn't hurt. */
if (opts.canDrop) {
ret.isDud = 1;
return ret;
}
ret.isDud = 0;
subScope = CompilerPushScope(c, 0);
/* Check for function documentation - for now just ignore. */
if (form->data[current].type == TYPE_STRING) {
@ -862,11 +860,10 @@ static Slot CompileIf(Compiler * c, FormOptions opts, Array * form) {
/* Configure options for bodies of if */
if (opts.isTail) {
ret.isDud = 1;
resOpts.isTail = 1;
} else if (opts.canDrop) {
ret.isDud = 1;
resOpts.canDrop = 1;
} else if (opts.canChoose) {
ret.isDud = 0;
ret.isTemp = 1;
ret.index = CompilerGetLocal(c, scope);
resOpts.target = ret.index;
@ -896,10 +893,7 @@ static Slot CompileIf(Compiler * c, FormOptions opts, Array * form) {
BufferPushUInt32(c->vm, buffer, 0);
/* Compile true path */
left = CompileValue(c, resOpts, form->data[2]);
if (opts.isTail && !left.isDud) {
BufferPushUInt16(c->vm, buffer, VM_OP_RET);
BufferPushUInt16(c->vm, buffer, left.index);
}
if (opts.isTail) CompilerReturnSlot(c, left);
CompilerDropSlot(c, scope, left);
/* If we need to jump again, do so */
if (!opts.isTail && form->count == 4) {
@ -917,10 +911,7 @@ static Slot CompileIf(Compiler * c, FormOptions opts, Array * form) {
/* Compile false path */
if (form->count == 4) {
right = CompileValue(c, resOpts, form->data[3]);
if (opts.isTail && !right.isDud) {
BufferPushUInt16(c->vm, buffer, VM_OP_RET);
BufferPushUInt16(c->vm, buffer, right.index);
}
if (opts.isTail) CompilerReturnSlot(c, right);
CompilerDropSlot(c, scope, right);
}
/* Set the jump length */
@ -992,9 +983,9 @@ static Slot CompileQuote(Compiler * c, FormOptions opts, Array * form) {
return CompileNonReferenceType(c, opts, x);
}
if (opts.canDrop) {
ret.isDud = 1;
return ret;
}
ret.isDud = 0;
if (opts.canChoose) {
ret.isTemp = 1;
ret.index = CompilerGetLocal(c, scope);
@ -1158,9 +1149,9 @@ static Slot CompileForm(Compiler * c, FormOptions opts, Array * form) {
}
/* If this is in tail position do a tail call. */
if (opts.isTail) {
ret.isDud = 1;
BufferPushUInt16(c->vm, buffer, VM_OP_TCL);
} else {
ret.isDud = 0;
BufferPushUInt16(c->vm, buffer, VM_OP_CAL);
if (opts.canDrop) {
ret.isTemp = 1;
@ -1216,6 +1207,14 @@ void CompilerAddGlobal(Compiler * c, const char * name, Value x) {
ArrayPush(c->vm, c->env, x);
}
/* Register a global c function for the compilation environment. */
void CompilerAddGlobalCFunc(Compiler * c, const char * name, CFunction f) {
Value func;
func.type = TYPE_CFUNCTION;
func.data.cfunction = f;
return CompilerAddGlobal(c, name, func);
}
/* Compile interface. Returns a function that evaluates the
* given AST. Returns NULL if there was an error during compilation. */
Func * CompilerCompile(Compiler * c, Value form) {

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@ -9,6 +9,9 @@ void CompilerInit(Compiler * c, VM * vm);
/* Register a global for the compilation environment. */
void CompilerAddGlobal(Compiler * c, const char * name, Value x);
/* Register a global c function for the compilation environment. */
void CompilerAddGlobalCFunc(Compiler * c, const char * name, CFunction f);
/* Compile a function that evaluates the given form. */
Func * CompilerCompile(Compiler * c, Value form);

200
disasm.c Normal file
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@ -0,0 +1,200 @@
#include "disasm.h"
/* Width of padded opcode names */
#define OP_WIDTH 20
/* Print various register and arguments to instructions */
static void dasmPrintSlot(FILE * out, uint16_t index) { fprintf(out, "%d ", index); }
static void dasmPrintI16(FILE * out, int16_t number) { fprintf(out, "#%d ", number); }
static void dasmPrintI32(FILE * out, int32_t number) { fprintf(out, "#%d ", number); }
static void dasmPrintF64(FILE * out, double number) { fprintf(out, "#%f ", number); }
static void dasmPrintLiteral(FILE * out, uint16_t index) { fprintf(out, "(%d) ", index); }
static void dasmPrintUpValue(FILE * out, uint16_t level, uint16_t index) {
fprintf(out, "<%d, %d> ", level, index);
}
/* Print the name of the argument but pad it */
static void dasmPrintArg(FILE * out, const char * name) {
uint32_t i = 0;
char c;
while ((c = *name++)) {
fputc(c, out);
++i;
}
for (; i < OP_WIDTH; ++i)
fputc(' ', out);
}
/* Print instructions that take a fixed number of arguments */
static uint32_t dasmPrintFixedOp(FILE * out, const uint16_t * current,
const char * name, uint32_t size) {
uint32_t i;
dasmPrintArg(out, name);
for (i = 1; i <= size; ++i) {
dasmPrintSlot(out, current[i]);
}
return size + 1;
}
/* Print instructions that take a variable number of arguments */
static uint32_t dasmPrintVarArgOp(FILE * out, const uint16_t * current,
const char * name, uint32_t extra) {
uint32_t i, argCount;
dasmPrintArg(out, name);
argCount = current[1];
for (i = 0; i < extra; ++i) {
dasmPrintSlot(out, current[i + 2]);
}
fprintf(out, "| "); /* Argument separator */
for (i = 0; i < argCount; ++i) {
dasmPrintSlot(out, current[i + extra + 2]);
}
return argCount + extra + 2;
}
/* Print the disassembly for a function definition */
void dasmFuncDef(FILE * out, FuncDef * def) {
dasm(out, def->byteCode, def->byteCodeLen);
}
/* Print the disassembly for a function */
void dasmFunc(FILE * out, Func * f) {
dasm(out, f->def->byteCode, f->def->byteCodeLen);
}
/* Disassemble some bytecode and display it as opcode + arguments assembly */
void dasm(FILE * out, uint16_t *byteCode, uint32_t len) {
uint16_t *current = byteCode;
uint16_t *end = byteCode + len;
while (current < end) {
switch (*current) {
case VM_OP_ADD:
current += dasmPrintFixedOp(out, current, "add", 3);
break;
case VM_OP_SUB:
current += dasmPrintFixedOp(out, current, "sub", 3);
break;
case VM_OP_MUL:
current += dasmPrintFixedOp(out, current, "mul", 3);
break;
case VM_OP_DIV:
current += dasmPrintFixedOp(out, current, "div", 3);
break;
case VM_OP_NOT:
current += dasmPrintFixedOp(out, current, "not", 2);
break;
case VM_OP_LD0:
current += dasmPrintFixedOp(out, current, "load0", 1);
break;
case VM_OP_LD1:
current += dasmPrintFixedOp(out, current, "load1", 1);
break;
case VM_OP_FLS:
current += dasmPrintFixedOp(out, current, "loadFalse", 1);
break;
case VM_OP_TRU:
current += dasmPrintFixedOp(out, current, "loadTrue", 1);
break;
case VM_OP_NIL:
current += dasmPrintFixedOp(out, current, "loadNil", 1);
break;
case VM_OP_I16:
dasmPrintArg(out, "loadInt16");
dasmPrintSlot(out, current[1]);
dasmPrintI16(out, ((int16_t *)current)[2]);
current += 3;
break;
case VM_OP_UPV:
dasmPrintArg(out, "loadUpValue");
dasmPrintSlot(out, current[1]);
dasmPrintUpValue(out, current[2], current[3]);
current += 4;
break;
case VM_OP_JIF:
dasmPrintArg(out, "jumpIf");
dasmPrintSlot(out, current[1]);
dasmPrintI32(out, ((int32_t *)(current + 2))[0]);
current += 4;
break;
case VM_OP_JMP:
dasmPrintArg(out, "jump");
dasmPrintI32(out, ((int32_t *)(current + 1))[0]);
current += 3;
break;
case VM_OP_CAL:
current += dasmPrintVarArgOp(out, current, "call", 2);
break;
case VM_OP_RET:
current += dasmPrintFixedOp(out, current, "return", 1);
break;
case VM_OP_SUV:
dasmPrintArg(out, "setUpValue");
dasmPrintSlot(out, current[1]);
dasmPrintUpValue(out, current[2], current[3]);
current += 4;
break;
case VM_OP_CST:
dasmPrintArg(out, "loadLiteral");
dasmPrintSlot(out, current[1]);
dasmPrintLiteral(out, current[2]);
current += 3;
break;
case VM_OP_I32:
dasmPrintArg(out, "loadInt32");
dasmPrintSlot(out, current[1]);
dasmPrintI32(out, ((int32_t *)(current + 2))[0]);
current += 4;
break;
case VM_OP_F64:
dasmPrintArg(out, "loadFloat64");
dasmPrintSlot(out, current[1]);
dasmPrintF64(out, ((double *)(current + 2))[0]);
current += 6;
break;
case VM_OP_MOV:
current += dasmPrintFixedOp(out, current, "move", 2);
break;
case VM_OP_CLN:
dasmPrintArg(out, "makeClosure");
dasmPrintSlot(out, current[1]);
dasmPrintLiteral(out, current[2]);
current += 3;
break;
case VM_OP_EQL:
current += dasmPrintFixedOp(out, current, "equals", 3);
break;
case VM_OP_LTN:
current += dasmPrintFixedOp(out, current, "lessThan", 3);
break;
case VM_OP_LTE:
current += dasmPrintFixedOp(out, current, "lessThanEquals", 3);
break;
case VM_OP_ARR:
current += dasmPrintVarArgOp(out, current, "array", 1);
break;
case VM_OP_DIC:
current += dasmPrintVarArgOp(out, current, "dictionary", 1);
break;
case VM_OP_TCL:
current += dasmPrintVarArgOp(out, current, "tailCall", 1);
break;
case VM_OP_ADM:
current += dasmPrintVarArgOp(out, current, "addMultiple", 1);
break;
case VM_OP_SBM:
current += dasmPrintVarArgOp(out, current, "subMultiple", 1);
break;
case VM_OP_MUM:
current += dasmPrintVarArgOp(out, current, "mulMultiple", 1);
break;
case VM_OP_DVM:
current += dasmPrintVarArgOp(out, current, "divMultiple", 1);
break;
case VM_OP_RTN:
current += dasmPrintFixedOp(out, current, "returnNil", 0);
break;
}
fprintf(out, "\n");
}
}

17
disasm.h Normal file
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@ -0,0 +1,17 @@
#ifndef disasm_h_INCLUDED
#define disasm_h_INCLUDED
#include "datatypes.h"
#include <stdio.h>
/* Print disassembly for a given funciton */
void dasm(FILE * out, uint16_t * byteCode, uint32_t len);
/* Print the disassembly for a function definition */
void dasmFuncDef(FILE * out, FuncDef * def);
/* Print the disassembly for a function */
void dasmFunc(FILE * out, Func * f);
#endif // disasm_h_INCLUDED

20
main.c
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@ -6,15 +6,19 @@
#include "parse.h"
#include "compile.h"
#include "value.h"
#include "disasm.h"
Value print(VM * vm) {
uint32_t i;
uint32_t i, j, count;
Value nil;
uint8_t * string = ValueToString(vm, VMGetArg(vm, 0));
uint32_t len = VStringSize(string);
for (i = 0; i < len; ++i)
fputc(string[i], stdout);
fputc('\n', stdout);
count = VMCountArgs(vm);
for (j = 0; j < count; ++j) {
uint8_t * string = ValueToString(vm, VMGetArg(vm, j));
uint32_t len = VStringSize(string);
for (i = 0; i < len; ++i)
fputc(string[i], stdout);
fputc('\n', stdout);
}
nil.type = TYPE_NIL;
return nil;
}
@ -69,6 +73,7 @@ void debugRepl() {
/* Try to compile generated AST */
CompilerInit(&c, &vm);
CompilerAddGlobalCFunc(&c, "print", print);
func = CompilerCompile(&c, p.value);
/* Check for compilation errors */
@ -79,6 +84,9 @@ void debugRepl() {
continue;
}
/* Print the function that will be executed */
dasmFunc(stdout, func);
/* Execute function */
VMLoad(&vm, func);
if (VMStart(&vm)) {

17
vm.c
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@ -9,7 +9,7 @@
#define VMOpArg(i) (VMArg(vm->pc[(i)]))
static const char OOM[] = "Out of memory";
static const char NO_UPVALUE[] = "Out of memory";
static const char NO_UPVALUE[] = "No upvalue";
static const char EXPECTED_FUNCTION[] = "Expected function";
static const char VMS_EXPECTED_NUMBER_ROP[] = "Expected right operand to be number";
static const char VMS_EXPECTED_NUMBER_LOP[] = "Expected left operand to be number";
@ -272,7 +272,10 @@ static void VMThreadPop(VM * vm, Array * thread) {
static Value * GetUpValue(VM * vm, Func * fn, uint16_t level, uint16_t index) {
FuncEnv * env;
Value * stack;
while (fn && level--)
if (!level) {
return vm->base + index;
}
while (fn && --level)
fn = fn->parent;
VMAssert(vm, fn, NO_UPVALUE);
env = fn->env;
@ -452,6 +455,7 @@ int VMStart(VM * vm) {
{
int n;
if ((n = setjmp(vm->jump))) {
vm->lock = 0;
/* Good return */
if (n == 1) {
return 0;
@ -569,7 +573,7 @@ int VMStart(VM * vm) {
vRet = VMOpArg(1);
*vRet = *GetUpValue(vm, callee.data.func, vm->pc[2], vm->pc[3]);
vm->pc += 4;
}
}
break;
case VM_OP_JIF: /* Jump If */
@ -679,7 +683,7 @@ int VMStart(VM * vm) {
uint32_t i = 3;
uint32_t kvs = vm->pc[2];
Dictionary * dict = DictNew(vm, kvs);
kvs = kvs * 2 + 3;
kvs = kvs + 3;
while (i < kvs) {
v1 = VMOpArg(i++);
v2 = VMOpArg(i++);
@ -759,6 +763,11 @@ void VMSetArg(VM * vm, uint16_t index, Value x) {
*VMArg(index) = x;
}
/* Get the size of the VMStack */
uint16_t VMCountArgs(VM * vm) {
return FrameSize(vm->thread);
}
#undef VMOpArg
#undef VMArg

3
vm.h
View File

@ -50,4 +50,7 @@ Value VMGetArg(VM * vm, uint16_t index);
/* Put a value on the stack */
void VMSetArg(VM * vm, uint16_t index, Value x);
/* Get the number of arguments on the stack */
uint16_t VMCountArgs(VM * vm);
#endif /* end of include guard: VM_H_C4OZU8CQ */