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zongors-reality-engine
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rename to make more clear

This commit is contained in:
zongor 2025-07-05 16:59:51 -04:00
parent 7bff3208a0
commit 270eef83a2
3 changed files with 63 additions and 65 deletions
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6
src/main.c
View File

@ -51,10 +51,10 @@ int main(int argc, char **argv) {
initTokenMap();
compile(vm.memory, buffer);
vm.frame_stack_size = FRAME_STACK_SIZE;
vm.return_stack_size = RETURN_STACK_SIZE;
vm.frames_size = FRAMES_SIZE;
vm.stack_size = STACK_SIZE;
vm.memory_size = MEMORY_SIZE;
vm.frame_stack[vm.fp].allocated.end = demo_add_compile(vm.memory);
vm.frames[vm.fp].allocated.end = demo_add_compile(vm.memory);
#ifdef __EMSCRIPTEN__
emscripten_set_main_loop(mainloop, 0, 1);

14
src/opcodes.h
View File

@ -23,17 +23,17 @@ typedef struct {
} Frame;
#define MEMORY_SIZE 65536
#define FRAME_STACK_SIZE 32
#define RETURN_STACK_SIZE 256
#define FRAMES_SIZE 32
#define STACK_SIZE 256
typedef struct {
uint32_t pc; /* Program counter */
uint32_t fp; /* Frame pointer (last allocated value) */
uint32_t rp; /* Return stack pointer (top of stack) */
uint32_t mp; /* Memory pointer (last allocated value) */
uint32_t frame_stack_size;
Frame frame_stack[FRAME_STACK_SIZE];
uint32_t return_stack_size;
Value return_stack[RETURN_STACK_SIZE];
uint32_t frames_size;
Frame frames[FRAMES_SIZE];
uint32_t stack_size;
Value stack[STACK_SIZE];
uint32_t memory_size;
Value memory[MEMORY_SIZE]; /* Memory array */
} VM;
@ -46,6 +46,8 @@ typedef enum {
OP_STOREI, /* stri : next memory location = src1 as int */
OP_STOREU, /* stru : next memory location = src1 as uint */
OP_STOREF, /* strf : next memory location = src1 as float */
OP_PUSH_ARGS, /* */
OP_POP_ARGS, /* */
OP_ADD_INT, /* addi : dest = src1 + src2 */
OP_SUB_INT, /* subs : dest = src1 - src2 */
OP_MUL_INT, /* mulm : dest = src1 * src2 */

108
src/vm.c
View File

@ -3,19 +3,19 @@
#define COMPARE_AND_JUMP(type, accessor, op) \
do { \
type value = vm->frame_stack[vm->fp].registers[src1].accessor; \
type value2 = vm->frame_stack[vm->fp].registers[src2].accessor; \
vm->pc = (value op value2) ? vm->frame_stack[vm->fp].registers[dest].u \
: vm->pc; \
type value = vm->frames[vm->fp].registers[src1].accessor; \
type value2 = vm->frames[vm->fp].registers[src2].accessor; \
vm->pc = \
(value op value2) ? vm->frames[vm->fp].registers[dest].u : vm->pc; \
return true; \
} while (0)
#define MATH_OP(accessor, op) \
do { \
vm->frame_stack[vm->fp].registers[dest].accessor = \
vm->frame_stack[vm->fp] \
vm->frames[vm->fp].registers[dest].accessor = \
vm->frames[vm->fp] \
.registers[src1] \
.accessor op vm->frame_stack[vm->fp] \
.accessor op vm->frames[vm->fp] \
.registers[src2] \
.accessor; \
return true; \
@ -54,45 +54,44 @@ bool step_vm(VM *vm) {
case OP_HALT:
return false;
case OP_CALL:
vm->return_stack[++vm->rp].u = vm->pc; /* push return address */
vm->pc = vm->frame_stack[vm->fp]
vm->stack[++vm->rp].u = vm->pc; /* push return address */
vm->pc = vm->frames[vm->fp]
.registers[dest]
.u; /* set pc to location of function in memory */
vm->fp++; /* increment to the next free frame */
vm->frame_stack[vm->fp].allocated.start =
vm->frames[vm->fp].allocated.start =
vm->mp; /* set start of new memory block */
return true;
case OP_RETURN:
vm->pc = vm->return_stack[vm->rp].u; /* set pc to return address */
Slice s = vm->frame_stack[vm->fp].allocated; /* get allocated slice */
vm->pc = vm->stack[vm->rp].u; /* set pc to return address */
Slice s = vm->frames[vm->fp].allocated; /* get allocated slice */
memset(&vm->memory[s.start], 0,
s.end - s.start); /* deallocate memory from slice */
uint32_t parent_rp = vm->frame_stack[vm->fp - 1].rp; /* get parents rp */
vm->frame_stack[vm->fp - 1].registers[parent_rp++] =
vm->frame_stack[vm->fp]
.registers[src1]; /* set the return value to the last register in
the parent frame */
memset(&vm->frame_stack[vm->fp], 0, sizeof(Frame)); /* reset the frame */
vm->fp--; /* pop the frame */
uint32_t parent_rp = vm->frames[vm->fp - 1].rp; /* get parents rp */
vm->frames[vm->fp - 1].registers[parent_rp++] =
vm->frames[vm->fp].registers[src1]; /* set the return value to the last
register in the parent frame */
memset(&vm->frames[vm->fp], 0, sizeof(Frame)); /* reset the frame */
vm->fp--; /* pop the frame */
vm->mp = s.start; /* reset memory pointer to start of old slice */
return true;
case OP_LOADI:
vm->frame_stack[vm->fp].registers[dest].i = vm->memory[vm->pc++].i;
vm->frames[vm->fp].registers[dest].i = vm->memory[vm->pc++].i;
return true;
case OP_LOADU:
vm->frame_stack[vm->fp].registers[dest].u = vm->memory[vm->pc++].u;
vm->frames[vm->fp].registers[dest].u = vm->memory[vm->pc++].u;
return true;
case OP_LOADF:
vm->frame_stack[vm->fp].registers[dest].f = vm->memory[vm->pc++].f;
vm->frames[vm->fp].registers[dest].f = vm->memory[vm->pc++].f;
return true;
case OP_STOREI:
vm->memory[vm->pc++].i = vm->frame_stack[vm->fp].registers[src1].i;
vm->memory[vm->pc++].i = vm->frames[vm->fp].registers[src1].i;
return true;
case OP_STOREU:
vm->memory[vm->pc++].u = vm->frame_stack[vm->fp].registers[src1].u;
vm->memory[vm->pc++].u = vm->frames[vm->fp].registers[src1].u;
return true;
case OP_STOREF:
vm->memory[vm->pc++].f = vm->frame_stack[vm->fp].registers[src1].f;
vm->memory[vm->pc++].f = vm->frames[vm->fp].registers[src1].f;
return true;
case OP_ADD_INT:
MATH_OP(i, +);
@ -119,27 +118,26 @@ bool step_vm(VM *vm) {
case OP_DIV_REAL:
MATH_OP(f, /);
case OP_REAL_TO_INT:
vm->frame_stack[vm->fp].registers[dest].i =
(int32_t)(vm->frame_stack[vm->fp].registers[src1].f);
vm->frames[vm->fp].registers[dest].i =
(int32_t)(vm->frames[vm->fp].registers[src1].f);
return true;
case OP_INT_TO_REAL:
vm->frame_stack[vm->fp].registers[dest].f =
(float)(vm->frame_stack[vm->fp].registers[src1].i);
vm->frames[vm->fp].registers[dest].f =
(float)(vm->frames[vm->fp].registers[src1].i);
return true;
case OP_REAL_TO_UINT:
vm->frame_stack[vm->fp].registers[dest].u =
(uint32_t)(vm->frame_stack[vm->fp].registers[src1].f);
vm->frames[vm->fp].registers[dest].u =
(uint32_t)(vm->frames[vm->fp].registers[src1].f);
return true;
case OP_UINT_TO_REAL:
vm->frame_stack[vm->fp].registers[dest].f =
(float)(vm->frame_stack[vm->fp].registers[src1].u);
vm->frames[vm->fp].registers[dest].f =
(float)(vm->frames[vm->fp].registers[src1].u);
return true;
case OP_MOV:
vm->frame_stack[vm->fp].registers[dest] =
vm->frame_stack[vm->fp].registers[src1];
vm->frames[vm->fp].registers[dest] = vm->frames[vm->fp].registers[src1];
return true;
case OP_JMP:
vm->pc = vm->frame_stack[vm->fp].registers[src1].u; /* Jump to address */
vm->pc = vm->frames[vm->fp].registers[src1].u; /* Jump to address */
return true;
case OP_JEQ_UINT: {
COMPARE_AND_JUMP(uint32_t, u, ==);
@ -187,50 +185,48 @@ bool step_vm(VM *vm) {
COMPARE_AND_JUMP(float, u, <=);
}
case OP_INT_TO_STRING: {
int32_t a =
(int32_t)vm->frame_stack[vm->fp].registers[src1].i; /* get value */
uint32_t str_dest = (uint32_t)vm->frame_stack[vm->fp]
int32_t a = (int32_t)vm->frames[vm->fp].registers[src1].i; /* get value */
uint32_t str_dest = (uint32_t)vm->frames[vm->fp]
.allocated.end; /* get start of unallocated */
vm->frame_stack[vm->fp].registers[dest].u =
vm->frames[vm->fp].registers[dest].u =
str_dest; /* store ptr of string to dest register */
char buffer[32];
int len = sprintf(buffer, "%d", a);
mem_strcpy(vm->memory, buffer, len, str_dest); /* copy buffer to dest */
vm->frame_stack[vm->fp].allocated.end +=
vm->frames[vm->fp].allocated.end +=
((len / 4) + (len % 4) + 1); /* increment to end of allocated */
return true;
}
case OP_UINT_TO_STRING: {
uint32_t a =
(uint32_t)vm->frame_stack[vm->fp].registers[src1].u; /* get value */
uint32_t str_dest = (uint32_t)vm->frame_stack[vm->fp]
uint32_t a = (uint32_t)vm->frames[vm->fp].registers[src1].u; /* get value */
uint32_t str_dest = (uint32_t)vm->frames[vm->fp]
.allocated.end; /* get start of unallocated */
vm->frame_stack[vm->fp].registers[dest].u =
vm->frames[vm->fp].registers[dest].u =
str_dest; /* store ptr of string to dest register */
char buffer[32];
int len = sprintf(buffer, "%d", a);
mem_strcpy(vm->memory, buffer, len, str_dest); /* copy buffer to dest */
vm->frame_stack[vm->fp].allocated.end +=
vm->frames[vm->fp].allocated.end +=
((len / 4) + (len % 4) + 1); /* increment to end of allocated */
return true;
}
case OP_REAL_TO_STRING: {
float a = (float)vm->frame_stack[vm->fp].registers[src1].f; /* get value */
uint32_t str_dest = (uint32_t)vm->frame_stack[vm->fp]
float a = (float)vm->frames[vm->fp].registers[src1].f; /* get value */
uint32_t str_dest = (uint32_t)vm->frames[vm->fp]
.allocated.end; /* get start of unallocated */
vm->frame_stack[vm->fp].registers[dest].u =
vm->frames[vm->fp].registers[dest].u =
str_dest; /* store ptr of string to dest register */
char buffer[32];
int len = sprintf(buffer, "%f", a);
mem_strcpy(vm->memory, buffer, len, str_dest); /* copy buffer to dest */
vm->frame_stack[vm->fp].allocated.end +=
vm->frames[vm->fp].allocated.end +=
((len / 4) + (len % 4) + 1); /* increment to end of allocated */
return true;
}
case OP_READ_STRING: {
uint32_t str_dest = (uint32_t)vm->frame_stack[vm->fp]
uint32_t str_dest = (uint32_t)vm->frames[vm->fp]
.allocated.end; /* get start of unallocated */
vm->frame_stack[vm->fp].registers[dest].u =
vm->frames[vm->fp].registers[dest].u =
str_dest; /* store ptr of string to dest register */
uint32_t buffer = str_dest + 1;
uint32_t length = 0;
@ -244,12 +240,12 @@ bool step_vm(VM *vm) {
length++;
}
vm->memory[str_dest].u = length;
vm->frame_stack[vm->fp].allocated.end +=
vm->frames[vm->fp].allocated.end +=
length + 1; /* increment to end of allocated */
return true;
}
case OP_PRINT_STRING: {
uint32_t ptr = (uint32_t)vm->frame_stack[vm->fp].registers[src1].u;
uint32_t ptr = (uint32_t)vm->frames[vm->fp].registers[src1].u;
uint32_t length = vm->memory[ptr].u;
uint32_t str_src = ptr + 1;
uint32_t i;
@ -263,8 +259,8 @@ bool step_vm(VM *vm) {
return true;
}
case OP_CMP_STRING: {
uint32_t addr1 = (uint32_t)vm->frame_stack[vm->fp].registers[src1].u;
uint32_t addr2 = (uint32_t)vm->frame_stack[vm->fp].registers[src2].u;
uint32_t addr1 = (uint32_t)vm->frames[vm->fp].registers[src1].u;
uint32_t addr2 = (uint32_t)vm->frames[vm->fp].registers[src2].u;
uint32_t length1 = vm->memory[addr1 - 1].u;
uint32_t length2 = vm->memory[addr2 - 1].u;
uint32_t equal = 1;