153 lines
5.2 KiB
C
153 lines
5.2 KiB
C
#include "standard_library.h"
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#include "toy_console_colors.h"
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#include "toy_scope.h"
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#include "toy_stack.h"
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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typedef struct CallbackPairs {
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const char* name;
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Toy_nativeCallback callback;
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} CallbackPairs;
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//example of how to write and use C bindings
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static void std_min(Toy_VM* vm, Toy_FunctionNative* self) {
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(void)self;
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//return the lesser of two values, or null on error
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Toy_Value first = Toy_popStack(&vm->stack);
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Toy_Value second = Toy_popStack(&vm->stack);
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//check types
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if ((!TOY_VALUE_IS_INTEGER(first) && !TOY_VALUE_IS_FLOAT(first)) || (!TOY_VALUE_IS_INTEGER(second) && !TOY_VALUE_IS_FLOAT(second))) {
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char buffer[256];
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snprintf(buffer, 256, "Invalid types '%s' and '%s' found in 'min()'", Toy_getValueTypeAsCString(Toy_unwrapValue(first).type), Toy_getValueTypeAsCString(Toy_unwrapValue(second).type));
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Toy_error(buffer);
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Toy_freeValue(first);
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Toy_freeValue(second);
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Toy_pushStack(&vm->stack, TOY_VALUE_FROM_NULL());
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return;
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}
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//compare ints, or coerce ints into floats if needed
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if (TOY_VALUE_IS_INTEGER(first) && TOY_VALUE_IS_INTEGER(second)) {
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Toy_Value result = TOY_VALUE_FROM_INTEGER(TOY_VALUE_AS_INTEGER(first) < TOY_VALUE_AS_INTEGER(second) ? TOY_VALUE_AS_INTEGER(first) : TOY_VALUE_AS_INTEGER(second));
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Toy_pushStack(&vm->stack, result);
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return;
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}
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else if (TOY_VALUE_IS_INTEGER(first) && TOY_VALUE_IS_FLOAT(second)) {
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first = TOY_VALUE_FROM_FLOAT( (float)TOY_VALUE_AS_INTEGER(first) );
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}
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else if (TOY_VALUE_IS_FLOAT(first) && TOY_VALUE_IS_INTEGER(second)) {
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second = TOY_VALUE_FROM_FLOAT( (float)TOY_VALUE_AS_INTEGER(second) );
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}
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//finally, do the comparison on floats
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Toy_Value result = TOY_VALUE_FROM_FLOAT(TOY_VALUE_AS_FLOAT(first) < TOY_VALUE_AS_FLOAT(second) ? TOY_VALUE_AS_FLOAT(first) : TOY_VALUE_AS_FLOAT(second));
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Toy_pushStack(&vm->stack, result);
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//NOTE: not freeing scalar values does work, but only in narrow cases
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}
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static void std_max(Toy_VM* vm, Toy_FunctionNative* self) {
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(void)self;
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//return the lesser of two values, or null on error
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Toy_Value first = Toy_popStack(&vm->stack);
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Toy_Value second = Toy_popStack(&vm->stack);
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//check types
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if ((!TOY_VALUE_IS_INTEGER(first) && !TOY_VALUE_IS_FLOAT(first)) || (!TOY_VALUE_IS_INTEGER(second) && !TOY_VALUE_IS_FLOAT(second))) {
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char buffer[256];
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snprintf(buffer, 256, "Invalid types '%s' and '%s' found in 'min()'", Toy_getValueTypeAsCString(Toy_unwrapValue(first).type), Toy_getValueTypeAsCString(Toy_unwrapValue(second).type));
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Toy_error(buffer);
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Toy_freeValue(first);
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Toy_freeValue(second);
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Toy_pushStack(&vm->stack, TOY_VALUE_FROM_NULL());
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return;
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}
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//compare ints, or coerce ints into floats if needed
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if (TOY_VALUE_IS_INTEGER(first) && TOY_VALUE_IS_INTEGER(second)) {
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Toy_Value result = TOY_VALUE_FROM_INTEGER(TOY_VALUE_AS_INTEGER(first) > TOY_VALUE_AS_INTEGER(second) ? TOY_VALUE_AS_INTEGER(first) : TOY_VALUE_AS_INTEGER(second));
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Toy_pushStack(&vm->stack, result);
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return;
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}
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else if (TOY_VALUE_IS_INTEGER(first) && TOY_VALUE_IS_FLOAT(second)) {
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first = TOY_VALUE_FROM_FLOAT( (float)TOY_VALUE_AS_INTEGER(first) );
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}
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else if (TOY_VALUE_IS_FLOAT(first) && TOY_VALUE_IS_INTEGER(second)) {
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second = TOY_VALUE_FROM_FLOAT( (float)TOY_VALUE_AS_INTEGER(second) );
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}
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//finally, do the comparison on floats
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Toy_Value result = TOY_VALUE_FROM_FLOAT(TOY_VALUE_AS_FLOAT(first) > TOY_VALUE_AS_FLOAT(second) ? TOY_VALUE_AS_FLOAT(first) : TOY_VALUE_AS_FLOAT(second));
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Toy_pushStack(&vm->stack, result);
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//NOTE: not freeing scalar values does work, but only in narrow cases
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}
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static void next(Toy_VM* vm, Toy_FunctionNative* self) {
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//used by 'std_range'
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if (self->meta2 < self->meta1) {
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Toy_Value result = TOY_VALUE_FROM_INTEGER(self->meta2);
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Toy_pushStack(&vm->stack, result);
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self->meta2++;
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}
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else {
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Toy_pushStack(&vm->stack, TOY_VALUE_FROM_NULL());
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}
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}
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static void std_range(Toy_VM* vm, Toy_FunctionNative* self) {
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(void)self;
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//one arg to represent the number of iterations
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Toy_Value value = Toy_popStack(&vm->stack);
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//check types
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if (!TOY_VALUE_IS_INTEGER(value)) {
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char buffer[256];
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snprintf(buffer, 256, "Expected Integer argument in 'range', found '%s'", Toy_getValueTypeAsCString(value.type));
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Toy_error(buffer);
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Toy_freeValue(value);
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return;
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}
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//make the callback
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Toy_Function* fn = Toy_createFunctionFromCallback(&vm->memoryBucket, next);
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fn->native.meta1 = TOY_VALUE_AS_INTEGER(value); //fake a closure
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fn->native.meta2 = 0; //counter
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Toy_Value result = TOY_VALUE_FROM_FUNCTION(fn);
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Toy_pushStack(&vm->stack, result);
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}
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CallbackPairs callbackPairs[] = {
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{"min", std_min},
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{"max", std_max},
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{"range", std_range},
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{NULL, NULL},
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};
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//exposed functions
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void initStandardLibrary(Toy_VM* vm) {
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if (vm == NULL || vm->scope == NULL || vm->memoryBucket == NULL) {
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fprintf(stderr, TOY_CC_ERROR "ERROR: Can't initialize standard library, exiting\n" TOY_CC_RESET);
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exit(-1);
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}
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//declare each pair
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for (int i = 0; callbackPairs[i].name; i++) {
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Toy_String* key = Toy_createStringLength(&vm->memoryBucket, callbackPairs[i].name, strlen(callbackPairs[i].name));
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Toy_Function* fn = Toy_createFunctionFromCallback(&(vm->memoryBucket), callbackPairs[i].callback);
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Toy_declareScope(vm->scope, key, TOY_VALUE_FUNCTION, TOY_VALUE_FROM_FUNCTION(fn), true);
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}
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}
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