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compare: ground:f9352cf59fa5c628fdd3cc9b3f0a062c33d40445
Branches Tags
ground:master ground:unstable ground:math-branch

32 Commits
math-branc ... f9352cf59f

Author SHA1 Message Date
Maxwell Jeffress
f9352cf59f Start work on floats 2026-01-22 19:09:26 +11:00
Maxwell Jeffress
3afb59929a Add int, char, and bool to compiler 2026-01-22 14:22:12 +11:00
Maxwell Jeffress
0c2abbae2f Start working on allowing more types in compiler 2026-01-22 14:10:26 +11:00
Maxwell
955e75addb Merge pull request 'Pull stuff in again' (#17) from master into unstable 
Reviewed-on: #17
 2026-01-22 14:07:37 +11:00
Maxwell Jeffress
c382ecd867 Fix the header again 2026-01-22 10:50:48 +11:00
Maxwell Jeffress
228d2ac762 I forgot the header again lmao 2026-01-21 18:59:24 +11:00
Maxwell Jeffress
b289448f56 Add struct field access 2026-01-21 18:41:24 +11:00
Maxwell Jeffress
a3ca979133 Add not to compiler 2026-01-21 16:02:13 +11:00
Maxwell Jeffress
3e9ce0dfc0 Expose compiler in groundvm.h 2026-01-21 15:54:18 +11:00
Maxwell
063e85d24a Merge pull request 'Add compiler' (#14) from unstable into master 
Reviewed-on: #14
 2026-01-21 15:53:20 +11:00
Maxwell Jeffress
07474d4317 Add print and println to compiler 2026-01-21 15:20:00 +11:00
Maxwell Jeffress
51639e904d Add control flow 2026-01-21 14:35:48 +11:00
Maxwell Jeffress
c728801bc3 Add comparisons 2026-01-21 14:10:34 +11:00
Maxwell Jeffress
e3c8a2f453 Add multiply and subtract 2026-01-21 14:02:05 +11:00
Maxwell Jeffress
bf68f1500c Add add instruction to compiler 2026-01-21 13:50:54 +11:00
Maxwell Jeffress
31577fcc62 Add set to compiler 2026-01-21 13:25:13 +11:00
Maxwell Jeffress
925077d55e Merge branch 'master' into unstable 2026-01-21 12:20:51 +11:00
Maxwell Jeffress
32d6a029dd trying to fix stuff 2026-01-21 11:55:42 +11:00
Maxwell Jeffress
dac983b684 Update compiler 2026-01-21 11:38:37 +11:00
Maxwell Jeffress
d3c03b4987 Better cmdline args, start work on compiler 2026-01-21 11:17:19 +11:00
SpookyDervish
0f155c80be ground library version 1.1.5 2026-01-21 07:23:24 +11:00
SpookyDervish
4680597065 update to math library (v1.1.0) 2026-01-20 21:29:42 +11:00
Maxwell Jeffress
c6762a7966 extlibs can now add variables and structs! 2026-01-20 21:26:40 +11:00
Maxwell Jeffress
792aed13ae Balright time to break master again 2026-01-20 21:17:08 +11:00
Maxwell Jeffress
08b1edd7a7 Update include header 2026-01-20 20:17:26 +11:00
Maxwell
8eef78c310 Merge pull request 'master' (#11) from master into unstable 
Reviewed-on: #11
 2026-01-20 20:15:00 +11:00
Maxwell Jeffress
ec23d55f9d Fix bug about passing objs to functions 2026-01-20 19:57:49 +11:00
Maxwell Jeffress
724162f42e Refactor fn arg checking 2026-01-20 19:56:14 +11:00
Maxwell
6d0dd99406 Merge pull request 'Error function' (#10) from DiamondNether90/cground:testing into master 
Reviewed-on: #10
 2026-01-19 21:21:25 +11:00
DiamondNether90
7717a40574 Error function 2026-01-19 21:14:48 +11:00
Maxwell
bbf2277b6f Merge pull request 'Add math library' (#9) from unstable into master 
Reviewed-on: #9
 2026-01-19 20:44:56 +11:00
Maxwell
fd6fbbaed5 Merge pull request 'math library' (#8) from math-branch into unstable 
Reviewed-on: #8
 2026-01-19 20:44:04 +11:00
16 changed files with 1493 additions and 30 deletions
Expand all files Collapse all files

25
README.md
View File

@@ -82,7 +82,7 @@ build
- [x] Return values (type checked)
- [x] Arguments for functions
- [x] Jumping within functions
- [ ] Custom data structures
- [x] Custom data structures
- [ ] Working with external libraries
## Debugger
@@ -98,3 +98,26 @@ Commands:
* eval (code): Runs Ground code in the current scope
* help: Shows a help message
## Compiler
CGround now includes an experimental Ground -> x86_64 Linux ASM compiler. You can try it by adding the `-c` flag when running Ground. This will print the generated ASM to the console.
At present only the `int`, `char`, and `bool` data types are supported.
Supported instructions so far:
* set
* add
* subtract
* multiply
* equal
* inequal
* greater
* lesser
* not
* jump
* if
* @ (label creation)
* print
* println
* end

11
include/groundext.h
View File

@@ -14,17 +14,6 @@ extern "C" {
struct GroundScope;
typedef struct GroundScope GroundScope;
/*
* Stores data associated with an error thrown during Ground execution.
*/
typedef struct GroundError {
char* what;
char* type;
struct GroundInstruction* where;
size_t line;
bool hasLine;
} GroundError;
// Creates a GroundValue containing (in), with type ERROR.
GroundValue createErrorGroundValue(GroundError in);

58
include/groundvm.h
View File

@@ -11,13 +11,14 @@
#include <stdbool.h>
#include <stdlib.h>
#include <stdarg.h>
#include <uthash.h>
typedef enum GroundInstType {
IF, JUMP, END, INPUT, PRINT, PRINTLN, SET, GETTYPE, EXISTS, SETLIST, SETLISTAT, GETLISTAT, GETLISTSIZE, LISTAPPEND, GETSTRSIZE, GETSTRCHARAT, ADD, SUBTRACT, MULTIPLY, DIVIDE, EQUAL, INEQUAL, NOT, GREATER, LESSER, STOI, STOD, TOSTRING, FUN, RETURN, ENDFUN, PUSHARG, CALL, STRUCT, ENDSTRUCT, INIT, USE, EXTERN, CREATELABEL, PAUSE, DROP
IF, JUMP, END, INPUT, PRINT, PRINTLN, SET, GETTYPE, EXISTS, SETLIST, SETLISTAT, GETLISTAT, GETLISTSIZE, LISTAPPEND, GETSTRSIZE, GETSTRCHARAT, ADD, SUBTRACT, MULTIPLY, DIVIDE, EQUAL, INEQUAL, NOT, GREATER, LESSER, STOI, STOD, TOSTRING, FUN, RETURN, ENDFUN, PUSHARG, CALL, STRUCT, ENDSTRUCT, INIT, GETFIELD, SETFIELD, USE, EXTERN, CREATELABEL, PAUSE, DROP, ERRORCMD
} GroundInstType;
typedef enum GroundValueType {
INT, DOUBLE, STRING, CHAR, BOOL, LIST, FUNCTION, CUSTOM, NONE
INT, DOUBLE, STRING, CHAR, BOOL, LIST, FUNCTION, STRUCTVAL, CUSTOM, ERROR, NONE
} GroundValueType;
typedef enum GroundArgType {
@@ -41,11 +42,23 @@ typedef struct List {
struct GroundValue* values;
} List;
/*
* Stores data associated with an error thrown during Ground execution.
*/
typedef struct GroundError {
char* what;
char* type;
struct GroundInstruction* where;
size_t line;
bool hasLine;
} GroundError;
/*
* Stores literal values created in a Ground program.
*/
typedef struct GroundValue {
GroundValueType type;
struct GroundStruct* customType;
union {
int64_t intVal;
double doubleVal;
@@ -53,8 +66,10 @@ typedef struct GroundValue {
char charVal;
bool boolVal;
List listVal;
GroundError errorVal;
struct GroundFunction* fnVal;
void* customVal;
struct GroundStruct* structVal;
struct GroundObject* customVal;
} data;
} GroundValue;
@@ -115,6 +130,39 @@ typedef struct GroundFunction {
size_t startLine;
} GroundFunction;
/*
* Field for a GroundStruct
*/
typedef struct GroundStructField {
char id[64];
GroundValue value;
UT_hash_handle hh;
} GroundStructField;
/*
* Represents a Ground struct.
*/
typedef struct GroundStruct {
GroundStructField* fields;
size_t size;
} GroundStruct;
/*
* Field for a GroundObject
*/
typedef struct GroundObjectField {
char id[64];
GroundValue value;
UT_hash_handle hh;
} GroundObjectField;
/*
* Represents an initialised Ground struct.
*/
typedef struct GroundObject {
GroundObjectField* fields;
} GroundObject;
#ifdef __cplusplus
extern "C" {
#endif
@@ -123,6 +171,7 @@ GroundProgram groundCreateProgram();
void groundAddInstructionToProgram(GroundProgram* program, GroundInstruction instruction);
GroundValue groundRunProgram(GroundProgram* program);
void groundPrintProgram(GroundProgram* program);
char* groundCompileProgram(GroundProgram* program);
GroundInstruction groundCreateInstruction(GroundInstType type);
void groundAddValueToInstruction(GroundInstruction* inst, GroundValue value);
@@ -133,6 +182,9 @@ GroundValue groundCreateValue(GroundValueType type, ...);
GroundProgram groundParseFile(const char* code);
GroundStruct groundCreateStruct();
void groundAddFieldToStruct(GroundStruct* gstruct, char* name, GroundValue field);
#ifdef __cplusplus
}
#endif

152
libs/math/math.c
View File

@@ -1,5 +1,12 @@
#include <groundext.h>
#include <math.h>
#include <time.h>
#include <stdlib.h>
#include <stdio.h>
#include <stdint.h>
#include <limits.h>
#include <float.h>
GroundValue ground_sin(GroundScope* scope, List args) {
return groundCreateValue(
@@ -21,19 +28,15 @@ GroundValue ground_tan(GroundScope* scope, List args) {
}
GroundValue rad_to_deg(GroundScope* scope, List args) {
double radians = args.values[0].data.doubleVal;
return groundCreateValue(
DOUBLE,
radians * (180.0 / M_PI)
args.values[0].data.doubleVal * (180.0 / M_PI)
);
}
GroundValue deg_to_rad(GroundScope* scope, List args) {
double deg = args.values[0].data.doubleVal;
return groundCreateValue(
DOUBLE,
deg * (M_PI / 180.0)
args.values[0].data.doubleVal * (M_PI / 180.0)
);
}
@@ -62,16 +65,149 @@ GroundValue ground_sqrt(GroundScope* scope, List args) {
);
}
GroundValue ground_abs(GroundScope* scope, List args) {
return groundCreateValue(
DOUBLE,
abs(args.values[0].data.doubleVal)
);
}
GroundValue ground_min(GroundScope* scope, List args) {
double a = args.values[0].data.doubleVal;
double b = args.values[1].data.doubleVal;
return groundCreateValue(
DOUBLE,
(a < b) ? a : b
);
}
GroundValue ground_max(GroundScope* scope, List args) {
double a = args.values[0].data.doubleVal;
double b = args.values[1].data.doubleVal;
return groundCreateValue(
DOUBLE,
(a > b) ? a : b
);
}
GroundValue ground_clamp(GroundScope* scope, List args) {
double number = args.values[0].data.doubleVal;
double min = args.values[1].data.doubleVal;
double max = args.values[2].data.doubleVal;
if (number < min) number = min;
if (number > max) number = max;
return groundCreateValue(
DOUBLE,
number
);
}
GroundValue ground_round(GroundScope* scope, List args) {
double x = args.values[0].data.doubleVal;
if (x >= 0.0)
return groundCreateValue(
INT,
(long long)(x + 0.5)
);
else
return groundCreateValue(
INT,
(long long)(x - 0.5)
);
}
GroundValue ground_floor(GroundScope* scope, List args) {
double x = args.values[0].data.doubleVal;
if (x >= (double)LLONG_MAX) return groundCreateValue(INT, LLONG_MAX);
if (x <= (double)LLONG_MIN) return groundCreateValue(INT, LLONG_MIN);
long long i = (long long)x; // truncates toward zero
if (x < 0 && x != (double)i) {
return groundCreateValue(
INT,
i-1
);
}
return groundCreateValue(
INT,
i
);
}
GroundValue ground_ceil(GroundScope* scope, List args) {
double x = args.values[0].data.doubleVal;
if (x >= (double)LLONG_MAX) return groundCreateValue(INT, LLONG_MAX);
if (x <= (double)LLONG_MIN) return groundCreateValue(INT, LLONG_MIN);
long long i = (long long)x; // truncates toward zero
if (x > 0 && x != (double)i) {
return groundCreateValue(
INT,
i+1
);
}
return groundCreateValue(
INT,
i
);
}
GroundValue ground_random(GroundScope* scope, List args) {
int64_t min = args.values[0].data.intVal;
int64_t max = args.values[1].data.intVal;
return groundCreateValue(
INT,
min + rand() % (max - min)
);
}
GroundValue ground_random_double(GroundScope* scope, List args) {
double min = args.values[0].data.doubleVal;
double max = args.values[1].data.doubleVal;
return groundCreateValue(
DOUBLE,
min + (double)rand() / RAND_MAX * (max - min)
);
}
GroundValue ground_random_set_seed(GroundScope* scope, List args) {
srand(args.values[0].data.intVal);
return groundCreateValue(
INT,
0
);
}
void ground_init(GroundScope* scope) {
srand((unsigned)time(NULL) ^ (unsigned)clock());
groundAddNativeFunction(scope, "math_Sin", ground_sin, DOUBLE, 1, DOUBLE, "radians");
groundAddNativeFunction(scope, "math_Cos", ground_cos, DOUBLE, 1, DOUBLE, "radians");
groundAddNativeFunction(scope, "math_Tan", ground_tan, DOUBLE, 1, DOUBLE, "radians");
groundAddNativeFunction(scope, "math_DegreesToRadians", deg_to_rad, DOUBLE, 1, DOUBLE, "degrees");
groundAddNativeFunction(scope, "math_RadiansToDegrees", rad_to_deg, DOUBLE, 1, DOUBLE, "radians");
groundAddNativeFunction(scope, "math_Modulos", ground_modulos, DOUBLE, 2, DOUBLE, "number1", DOUBLE, "number2");
groundAddNativeFunction(scope, "math_Pow", ground_pow, DOUBLE, 2, DOUBLE, "number1", DOUBLE, "number2");
groundAddNativeFunction(scope, "math_Sqrt", ground_sqrt, DOUBLE, 1, DOUBLE, "number");
groundAddNativeFunction(scope, "math_Abs", ground_abs, DOUBLE, 1, DOUBLE, "number");
groundAddNativeFunction(scope, "math_Min", ground_min, DOUBLE, 2, DOUBLE, "number1", DOUBLE, "number2");
groundAddNativeFunction(scope, "math_Max", ground_max, DOUBLE, 2, DOUBLE, "number1", DOUBLE, "number2");
groundAddNativeFunction(scope, "math_Clamp", ground_clamp, DOUBLE, 2, DOUBLE, "number", DOUBLE, "min", DOUBLE, "max");
groundAddNativeFunction(scope, "math_Round", ground_round, INT, 1, DOUBLE, "number");
groundAddNativeFunction(scope, "math_Floor", ground_floor, INT, 1, DOUBLE, "number");
groundAddNativeFunction(scope, "math_Ceil", ground_ceil, INT, 1, DOUBLE, "number");
groundAddNativeFunction(scope, "math_Random", ground_random, INT, 2, INT, "min", INT, "max");
groundAddNativeFunction(scope, "math_RandomDouble", ground_random_double, DOUBLE, 2, DOUBLE, "min", DOUBLE, "max");
groundAddNativeFunction(scope, "math_RandomSetSeed", ground_random_set_seed, INT, 1, INT, "seed");
}

922
src/compiler.c Normal file
View File

@@ -0,0 +1,922 @@
#include "compiler.h"
#include "interpreter.h"
#include "types.h"
#include "include/estr.h"
#include <stdint.h>
#include <inttypes.h>
#include <stdio.h>
VariableTable createVariableTable() {
VariableTable vt;
vt.capacity = 16;
vt.count = 0;
vt.vars = malloc(sizeof(VariableInfo) * vt.capacity);
return vt;
}
void addVtVariable(VariableTable* vt, const char* name, GroundValueType type) {
// check if it already exists
for (size_t i = 0; i < vt->count; i++) {
if (strcmp(vt->vars[i].name, name) == 0) {
return;
}
}
// increase capacity
if (vt->count >= vt->capacity) {
vt->capacity *= 2;
vt->vars = realloc(vt->vars, sizeof(VariableInfo) * vt->capacity);
}
// add the variable
strcpy(vt->vars[vt->count].name, name);
vt->vars[vt->count].type = type;
vt->vars[vt->count].offset = vt->count * 8;
vt->count++;
}
VariableInfo* getVariable(VariableTable* vt, const char* name) {
for (size_t i = 0; i < vt->count; i++) {
if (strcmp(vt->vars[i].name, name) == 0) {
return &vt->vars[i];
}
}
return NULL;
}
int getVariablePos(VariableTable* vt, const char* name) {
for (size_t i = 0; i < vt->count; i++) {
if (strcmp(vt->vars[i].name, name) == 0) {
return vt->vars[i].offset;
}
}
return -1;
}
DoubleTable createDoubleTable() {
DoubleTable dt;
dt.count = 0;
dt.capacity = 16;
dt.constants = malloc(sizeof(DoubleConstant) * 16);
return dt;
}
char* addDoubleConstant(DoubleTable* dt, Estr* rodata, double value, int* counter) {
for (size_t i = 0; i < dt->count; i++) {
if (dt->constants[i].value == value) {
return dt->constants[i].label;
}
}
if (dt->count >= dt->capacity) {
dt->capacity = dt->capacity == 0 ? 16 : dt->capacity * 2;
dt->constants = realloc(dt->constants, sizeof(DoubleConstant) * dt->capacity);
}
char label[64];
snprintf(label, sizeof(label), "float_const_%d", (*counter)++);
strcpy(dt->constants[dt->count].label, label);
dt->constants[dt->count].value = value;
dt->count++;
char line[128];
snprintf(line, 128, "%s: dq %.17g ; double constant\n", label, value);
APPEND_ESTR((*rodata), line);
return dt->constants[dt->count - 1].label;
}
GroundValueType getInstructionReturnType(GroundInstruction* gi, VariableTable* table) {
switch (gi->type) {
case JUMP:
case PRINT:
case PRINTLN:
case END:
case IF:
case RETURN:
case ENDFUN:
case PUSHARG:
case CALL: // FIXME do this when functions are added
case USE:
case EXTERN:
case CREATELABEL:
case PAUSE:
case DROP:
case ERRORCMD:
case ENDSTRUCT:
case INIT: // FIXME do this when objects are added
case GETFIELD: // FIXME do this when objects are added
case SETFIELD: // FIXME do this when objects are added
case DIVIDE: // FIXME do this when division is added
case SETLISTAT:
case GETLISTAT: // FIXME do this when lists are getting implemented
case LISTAPPEND: {
return NONE;
}
case TOSTRING:
case GETTYPE:
case INPUT: {
return STRING;
}
case STOI:
case GETLISTSIZE:
case GETSTRSIZE: {
return INT;
}
case STOD: {
return DOUBLE;
}
case EQUAL:
case INEQUAL:
case GREATER:
case LESSER:
case NOT:
case EXISTS: {
return BOOL;
}
case GETSTRCHARAT: {
return CHAR;
}
case SETLIST: {
return LIST;
}
case FUN: {
return FUNCTION;
}
case STRUCT: {
return STRUCTVAL;
}
case SET: {
if (gi->args.length == 2) {
if (gi->args.args[1].type == VALUE) {
return gi->args.args[1].value.value.type;
} else if (gi->args.args[1].type == VALREF) {
VariableInfo* var = getVariable(table, gi->args.args[1].value.refName);
if (var == NULL) {
return NONE;
}
return var->type;
} else {
return NONE;
}
} else {
return NONE;
}
}
case ADD: {
if (gi->args.length == 3) {
GroundValueType leftType;
GroundValueType rightType;
if (gi->args.args[0].type == VALUE) {
leftType = gi->args.args[0].value.value.type;
} else if (gi->args.args[0].type == VALREF) {
VariableInfo* var = getVariable(table, gi->args.args[0].value.refName);
if (var == NULL) {
return NONE;
}
leftType = var->type;
} else {
return NONE;
}
if (gi->args.args[1].type == VALUE) {
rightType = gi->args.args[1].value.value.type;
} else if (gi->args.args[1].type == VALREF) {
VariableInfo* var = getVariable(table, gi->args.args[1].value.refName);
if (var == NULL) {
return NONE;
}
rightType = var->type;
} else {
return NONE;
}
if (leftType == STRING) {
if (rightType == STRING) {
return STRING;
} else {
return NONE;
}
}
if (leftType == DOUBLE) {
if (rightType == DOUBLE || rightType == INT) {
return DOUBLE;
} else {
return NONE;
}
}
if (rightType == DOUBLE) {
if (leftType == DOUBLE || leftType == INT) {
return DOUBLE;
} else {
return NONE;
}
}
if (rightType == INT && leftType == INT) {
return INT;
}
return NONE;
} else {
return NONE;
}
}
case SUBTRACT: {
if (gi->args.length == 3) {
GroundValueType leftType;
GroundValueType rightType;
if (gi->args.args[0].type == VALUE) {
leftType = gi->args.args[0].value.value.type;
} else if (gi->args.args[0].type == VALREF) {
VariableInfo* var = getVariable(table, gi->args.args[0].value.refName);
if (var == NULL) {
return NONE;
}
leftType = var->type;
} else {
return NONE;
}
if (gi->args.args[1].type == VALUE) {
rightType = gi->args.args[1].value.value.type;
} else if (gi->args.args[1].type == VALREF) {
VariableInfo* var = getVariable(table, gi->args.args[1].value.refName);
if (var == NULL) {
return NONE;
}
rightType = var->type;
} else {
return NONE;
}
if (leftType == DOUBLE) {
if (rightType == DOUBLE || rightType == INT) {
return DOUBLE;
} else {
return NONE;
}
}
if (rightType == DOUBLE) {
if (leftType == DOUBLE || leftType == INT) {
return DOUBLE;
} else {
return NONE;
}
}
if (rightType == INT && leftType == INT) {
return INT;
}
return NONE;
} else {
return NONE;
}
}
case MULTIPLY: {
if (gi->args.length == 3) {
GroundValueType leftType;
GroundValueType rightType;
if (gi->args.args[0].type == VALUE) {
leftType = gi->args.args[0].value.value.type;
} else if (gi->args.args[0].type == VALREF) {
VariableInfo* var = getVariable(table, gi->args.args[0].value.refName);
if (var == NULL) {
return NONE;
}
leftType = var->type;
} else {
return NONE;
}
if (gi->args.args[1].type == VALUE) {
rightType = gi->args.args[1].value.value.type;
} else if (gi->args.args[1].type == VALREF) {
VariableInfo* var = getVariable(table, gi->args.args[1].value.refName);
if (var == NULL) {
return NONE;
}
rightType = var->type;
} else {
return NONE;
}
if (leftType == DOUBLE) {
if (rightType == DOUBLE || rightType == INT) {
return DOUBLE;
} else {
return NONE;
}
}
if (rightType == DOUBLE) {
if (leftType == DOUBLE || leftType == INT) {
return DOUBLE;
} else {
return NONE;
}
}
if (rightType == INT && leftType == INT) {
return INT;
}
return NONE;
} else {
return NONE;
}
}
}
return INT;
}
char* processValueString(GroundArg arg, VariableTable* vt, GroundValueType* outType, DoubleTable* dt, Estr* rodata, int* doubleCounter) {
if (arg.type == VALREF) {
VariableInfo* var = getVariable(vt, arg.value.refName);
if (var && outType) *outType = var->type;
char* buf = malloc(260);
snprintf(buf, 260, "[%s]", arg.value.refName);
return buf;
}
if (arg.type == VALUE) {
if (outType) *outType = arg.value.value.type;
switch(arg.value.value.type) {
case INT: {
char* buf = malloc(64);
snprintf(buf, 64, "%" PRId64, arg.value.value.data.intVal);
return buf;
break;
}
case DOUBLE: {
char* label = addDoubleConstant(dt, rodata, arg.value.value.data.doubleVal, doubleCounter);
char* buf = malloc(128);
snprintf(buf, 128, "[rel %s]", label);
return buf;
break;
}
case BOOL:
return arg.value.value.data.boolVal ? "1" : "0";
break;
case CHAR: {
char* buf = malloc(8);
snprintf(buf, 8, "%d", (int)arg.value.value.data.charVal);
return buf;
break;
}
default: {
printf("For now, only int, bool, and char are supported data types in the compiler.");
exit(1);
break;
}
}
}
return NULL;
}
/*
char* processValueString(GroundArg arg) {
if (arg.type == VALREF) {
char* buf = malloc(sizeof(char) * 260);
snprintf(buf, sizeof(char) * 260, "[%s]", arg.value.refName);
return buf;
}
if (arg.type == VALUE) {
switch (arg.value.value.type) {
case INT: {
char* buf = malloc(sizeof(char) * 64);
snprintf(buf, sizeof(char) * 260, "%" PRId64, arg.value.value.data.intVal);
return buf;
break;
}
case BOOL: {
return arg.value.value.data.boolVal ? "1" : "0";
break;
}
case CHAR: {
char* buf = malloc(8);
snprintf(buf, 8, "%d", (int) arg.value.value.data.charVal);
return buf;
break;
}
default: {
printf("For now, only int, bool, and char are supported data types in the compiler.");
exit(1);
break;
}
}
}
return NULL;
}
*/
char* compileGroundProgram(GroundProgram* program) {
Estr start = CREATE_ESTR("global _start\nsection .text\n_start:\n");
Estr data = CREATE_ESTR("section .bss\n");
Estr helpers = CREATE_ESTR("");
Estr rodata = CREATE_ESTR("section .rodata\n");
APPEND_ESTR(rodata, " newline_char: db 10\n");
APPEND_ESTR(rodata, " space_char: db 32\n");
DoubleTable doubleTable = createDoubleTable();
int doubleConstCounter = 0;
APPEND_ESTR(helpers, "\n; Helper: Print integer in rax\n");
APPEND_ESTR(helpers, "print_int:\n");
APPEND_ESTR(helpers, " push rbp\n");
APPEND_ESTR(helpers, " mov rbp, rsp\n");
APPEND_ESTR(helpers, " sub rsp, 32 ; Allocate buffer on stack\n");
APPEND_ESTR(helpers, " mov rdi, rsp ; RDI = buffer pointer\n");
APPEND_ESTR(helpers, " add rdi, 31 ; Point to end of buffer\n");
APPEND_ESTR(helpers, " mov byte [rdi], 0 ; Null terminator\n");
APPEND_ESTR(helpers, " dec rdi\n");
APPEND_ESTR(helpers, " mov rbx, 10 ; Divisor\n");
APPEND_ESTR(helpers, " test rax, rax\n");
APPEND_ESTR(helpers, " jns .positive\n");
APPEND_ESTR(helpers, " neg rax ; Make positive\n");
APPEND_ESTR(helpers, " push rax\n");
APPEND_ESTR(helpers, " mov byte [rdi], '-'\n");
APPEND_ESTR(helpers, " dec rdi\n");
APPEND_ESTR(helpers, " pop rax\n");
APPEND_ESTR(helpers, ".positive:\n");
APPEND_ESTR(helpers, " xor rcx, rcx ; Digit counter\n");
APPEND_ESTR(helpers, ".convert_loop:\n");
APPEND_ESTR(helpers, " xor rdx, rdx\n");
APPEND_ESTR(helpers, " div rbx ; rax = rax/10, rdx = remainder\n");
APPEND_ESTR(helpers, " add dl, '0' ; Convert to ASCII\n");
APPEND_ESTR(helpers, " mov [rdi], dl\n");
APPEND_ESTR(helpers, " dec rdi\n");
APPEND_ESTR(helpers, " inc rcx\n");
APPEND_ESTR(helpers, " test rax, rax\n");
APPEND_ESTR(helpers, " jnz .convert_loop\n");
APPEND_ESTR(helpers, " inc rdi ; Point back to first digit\n");
APPEND_ESTR(helpers, " ; Now print the string\n");
APPEND_ESTR(helpers, " mov rax, 1 ; sys_write\n");
APPEND_ESTR(helpers, " mov rsi, rdi ; Buffer\n");
APPEND_ESTR(helpers, " mov rdx, rcx ; Length\n");
APPEND_ESTR(helpers, " mov rdi, 1 ; stdout\n");
APPEND_ESTR(helpers, " syscall\n");
APPEND_ESTR(helpers, " mov rsp, rbp\n");
APPEND_ESTR(helpers, " pop rbp\n");
APPEND_ESTR(helpers, " ret\n");
APPEND_ESTR(helpers, "\n; Helper: Print string at address in rax, length in rbx\n");
APPEND_ESTR(helpers, "print_string:\n");
APPEND_ESTR(helpers, " push rax\n");
APPEND_ESTR(helpers, " push rbx\n");
APPEND_ESTR(helpers, " mov rdi, 1 ; stdout\n");
APPEND_ESTR(helpers, " mov rsi, rax ; String address\n");
APPEND_ESTR(helpers, " mov rdx, rbx ; Length\n");
APPEND_ESTR(helpers, " mov rax, 1 ; sys_write\n");
APPEND_ESTR(helpers, " syscall\n");
APPEND_ESTR(helpers, " pop rbx\n");
APPEND_ESTR(helpers, " pop rax\n");
APPEND_ESTR(helpers, " ret\n");
VariableTable varTable = createVariableTable();
// Allocate a spot for all direct references
for (size_t i = 0; i < program->size; i++) {
GroundInstruction gi = program->instructions[i];
for (size_t j = 0; j < gi.args.length; j++) {
if (gi.args.args[j].type == DIRREF) {
addVtVariable(&varTable, gi.args.args[j].value.refName, getInstructionReturnType(&gi, &varTable));
}
}
}
// Create data section
for (size_t i = 0; i < varTable.count; i++) {
if (strcmp(varTable.vars[i].name, "") == 0) {
continue;
}
APPEND_ESTR(data, " ");
APPEND_ESTR(data, varTable.vars[i].name);
APPEND_ESTR(data, " resq 1\n");
}
// Generate assembly
for (size_t i = 0; i < program->size; i++) {
GroundInstruction gi = program->instructions[i];
switch (gi.type) {
case CREATELABEL: {
APPEND_ESTR(start, gi.args.args[0].value.refName);
APPEND_ESTR(start, ":\n");
break;
}
case SET: {
if (gi.args.length < 2) {
runtimeError(TOO_FEW_ARGS, "Expecting 2 args", &gi, i);
}
if (gi.args.length > 2) {
runtimeError(TOO_MANY_ARGS, "Expecting 2 args", &gi, i);
}
if (gi.args.args[0].type != DIRREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting a DirectRef for arg 1", &gi, i);
}
if (gi.args.args[1].type != VALUE && gi.args.args[1].type != VALREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting a Value for arg 2", &gi, i);
}
char* varName= gi.args.args[0].value.refName;
APPEND_ESTR(start, " ; set\n")
APPEND_ESTR(start, " mov rax, ");
APPEND_ESTR(start, processValueString(gi.args.args[1], &varTable, NULL, &doubleTable, &rodata, &doubleConstCounter));
APPEND_ESTR(start, "\n");
APPEND_ESTR(start, " mov [");
APPEND_ESTR(start, varName);
APPEND_ESTR(start, "], rax\n");
break;
}
case JUMP: {
if (gi.args.length < 1) {
runtimeError(TOO_FEW_ARGS, "Expecting 1 arg", &gi, i);
}
if (gi.args.length > 1) {
runtimeError(TOO_MANY_ARGS, "Expecting 1 arg", &gi, i);
}
if (gi.args.args[0].type != LINEREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting a LineRef", &gi, i);
}
char* labelName = gi.args.args[0].value.refName;
APPEND_ESTR(start, " ; jump\n");
APPEND_ESTR(start, " jmp ");
APPEND_ESTR(start, labelName);
APPEND_ESTR(start, "\n");
break;
}
case IF: {
if (gi.args.length < 2) {
runtimeError(TOO_FEW_ARGS, "Expecting 2 args", &gi, i);
}
if (gi.args.length > 2) {
runtimeError(TOO_MANY_ARGS, "Expecting 2 args", &gi, i);
}
if (gi.args.args[0].type != VALUE && gi.args.args[0].type != VALREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting an Int (for now) for arg 1", &gi, i);
}
if (gi.args.args[1].type != LINEREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting a LineRef", &gi, i);
}
char* labelName = gi.args.args[1].value.refName;
APPEND_ESTR(start, " ; if\n");
APPEND_ESTR(start, " mov rax, ");
APPEND_ESTR(start, processValueString(gi.args.args[0], &varTable, NULL, &doubleTable, &rodata, &doubleConstCounter));
APPEND_ESTR(start, "\n");
APPEND_ESTR(start, " test rax, rax\n");
APPEND_ESTR(start, " jnz ");
APPEND_ESTR(start, labelName);
APPEND_ESTR(start, "\n");
break;
}
case NOT: {
if (gi.args.length < 2) {
runtimeError(TOO_FEW_ARGS, "Expecting 2 args", &gi, i);
}
if (gi.args.length > 2) {
runtimeError(TOO_MANY_ARGS, "Expecting 2 args", &gi, i);
}
if (gi.args.args[0].type != VALUE && gi.args.args[0].type != VALREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting an Int (for now) for arg 1", &gi, i);
}
if (gi.args.args[1].type != DIRREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting a DirectRef", &gi, i);
}
char* varName = gi.args.args[1].value.refName;
APPEND_ESTR(start, " ; not\n");
APPEND_ESTR(start, " mov rax, ");
APPEND_ESTR(start, processValueString(gi.args.args[0], &varTable, NULL, &doubleTable, &rodata, &doubleConstCounter));
APPEND_ESTR(start, "\n");
APPEND_ESTR(start, " xor rax, 1\n");
APPEND_ESTR(start, " mov [");
APPEND_ESTR(start, varName);
APPEND_ESTR(start, "], rax\n");
break;
}
case ADD: {
if (gi.args.length < 3) {
runtimeError(TOO_FEW_ARGS, "Expecting 2 args for add instruction", &gi, i);
}
if (gi.args.length > 3) {
runtimeError(TOO_MANY_ARGS, "Expecting 2 args for add instruction", &gi, i);
}
if (gi.args.args[0].type != VALUE && gi.args.args[0].type != VALREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting an Int for arg 1", &gi, i);
}
if (gi.args.args[1].type != VALUE && gi.args.args[1].type != VALREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting an Int for arg 2", &gi, i);
}
if (gi.args.args[2].type != DIRREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting a DirectRef for arg 3", &gi, i);
}
GroundValueType leftType, rightType;
char* left = processValueString(gi.args.args[0], &varTable, &leftType, &doubleTable, &rodata, &doubleConstCounter);
char* right = processValueString(gi.args.args[1], &varTable, &rightType, &doubleTable, &rodata, &doubleConstCounter);
char* varName = gi.args.args[2].value.refName;
bool isDouble = (leftType == DOUBLE || rightType == DOUBLE);
if (isDouble) {
APPEND_ESTR(start, " ; add (double)\n");
if (leftType == INT) {
APPEND_ESTR(start, " mov rax, ");
APPEND_ESTR(start, left);
APPEND_ESTR(start, "\n");
APPEND_ESTR(start, " cvtsi2sd xmm0, rax ; Convert int to double\n");
} else {
APPEND_ESTR(start, " movsd xmm0, ");
APPEND_ESTR(start, left);
APPEND_ESTR(start, "\n");
}
if (rightType == INT) {
APPEND_ESTR(start, " mov rax, ");
APPEND_ESTR(start, right);
APPEND_ESTR(start, "\n");
APPEND_ESTR(start, " cvtsi2sd xmm1, rax ; Convert int to double\n");
APPEND_ESTR(start, " addsd xmm0, xmm1\n");
} else {
APPEND_ESTR(start, " addsd xmm0, ");
APPEND_ESTR(start, right);
APPEND_ESTR(start, "\n");
}
APPEND_ESTR(start, " movsd [");
APPEND_ESTR(start, varName);
APPEND_ESTR(start, "], xmm0\n");
} else {
APPEND_ESTR(start, " ; add\n");
APPEND_ESTR(start, " mov rax, ");
APPEND_ESTR(start, processValueString(gi.args.args[0], &varTable, NULL, &doubleTable, &rodata, &doubleConstCounter));
APPEND_ESTR(start, "\n");
APPEND_ESTR(start, " add rax, ");
APPEND_ESTR(start, processValueString(gi.args.args[1], &varTable, NULL, &doubleTable, &rodata, &doubleConstCounter));
APPEND_ESTR(start, "\n");
APPEND_ESTR(start, " mov [");
APPEND_ESTR(start, varName);
APPEND_ESTR(start, "], rax\n");
}
break;
}
case SUBTRACT: {
if (gi.args.length < 3) {
runtimeError(TOO_FEW_ARGS, "Expecting 2 args for subtract instruction", &gi, i);
}
if (gi.args.length > 3) {
runtimeError(TOO_MANY_ARGS, "Expecting 2 args for subtract instruction", &gi, i);
}
if (gi.args.args[0].type != VALUE && gi.args.args[0].type != VALREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting an Int for arg 1", &gi, i);
}
if (gi.args.args[1].type != VALUE && gi.args.args[1].type != VALREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting an Int for arg 2", &gi, i);
}
if (gi.args.args[2].type != DIRREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting a DirectRef for arg 3", &gi, i);
}
char* varName= gi.args.args[2].value.refName;
APPEND_ESTR(start, " ; subtract\n");
APPEND_ESTR(start, " mov rax, ");
APPEND_ESTR(start, processValueString(gi.args.args[0], &varTable, NULL, &doubleTable, &rodata, &doubleConstCounter));
APPEND_ESTR(start, "\n");
APPEND_ESTR(start, " sub rax, ");
APPEND_ESTR(start, processValueString(gi.args.args[1], &varTable, NULL, &doubleTable, &rodata, &doubleConstCounter));
APPEND_ESTR(start, "\n");
APPEND_ESTR(start, " mov [");
APPEND_ESTR(start, varName);
APPEND_ESTR(start, "], rax\n");
break;
}
case MULTIPLY: {
if (gi.args.length < 3) {
runtimeError(TOO_FEW_ARGS, "Expecting 2 args for multiply instruction", &gi, i);
}
if (gi.args.length > 3) {
runtimeError(TOO_MANY_ARGS, "Expecting 2 args for multiply instruction", &gi, i);
}
if (gi.args.args[0].type != VALUE && gi.args.args[0].type != VALREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting an Int for arg 1", &gi, i);
}
if (gi.args.args[1].type != VALUE && gi.args.args[1].type != VALREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting an Int for arg 2", &gi, i);
}
if (gi.args.args[2].type != DIRREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting a DirectRef for arg 3", &gi, i);
}
char* varName= gi.args.args[2].value.refName;
APPEND_ESTR(start, " ; multiply\n");
APPEND_ESTR(start, " mov rax, ");
APPEND_ESTR(start, processValueString(gi.args.args[0], &varTable, NULL, &doubleTable, &rodata, &doubleConstCounter));
APPEND_ESTR(start, "\n");
APPEND_ESTR(start, " imul rax, ");
APPEND_ESTR(start, processValueString(gi.args.args[1], &varTable, NULL, &doubleTable, &rodata, &doubleConstCounter));
APPEND_ESTR(start, "\n");
APPEND_ESTR(start, " mov [");
APPEND_ESTR(start, varName);
APPEND_ESTR(start, "], rax\n");
break;
}
case EQUAL: {
if (gi.args.length < 3) {
runtimeError(TOO_FEW_ARGS, "Expecting 2 args for equal instruction", &gi, i);
}
if (gi.args.length > 3) {
runtimeError(TOO_MANY_ARGS, "Expecting 2 args for equal instruction", &gi, i);
}
if (gi.args.args[0].type != VALUE && gi.args.args[0].type != VALREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting an Int for arg 1", &gi, i);
}
if (gi.args.args[1].type != VALUE && gi.args.args[1].type != VALREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting an Int for arg 2", &gi, i);
}
if (gi.args.args[2].type != DIRREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting a DirectRef for arg 3", &gi, i);
}
char* varName= gi.args.args[2].value.refName;
APPEND_ESTR(start, " ; equal\n");
APPEND_ESTR(start, " mov rax, ");
APPEND_ESTR(start, processValueString(gi.args.args[0], &varTable, NULL, &doubleTable, &rodata, &doubleConstCounter));
APPEND_ESTR(start, "\n");
APPEND_ESTR(start, " cmp rax, ");
APPEND_ESTR(start, processValueString(gi.args.args[1], &varTable, NULL, &doubleTable, &rodata, &doubleConstCounter));
APPEND_ESTR(start, "\n");
APPEND_ESTR(start, " sete al\n");
APPEND_ESTR(start, " movzx rax, al\n");
APPEND_ESTR(start, " mov [");
APPEND_ESTR(start, varName);
APPEND_ESTR(start, "], rax\n");
break;
}
case INEQUAL: {
if (gi.args.length < 3) {
runtimeError(TOO_FEW_ARGS, "Expecting 2 args for inequal instruction", &gi, i);
}
if (gi.args.length > 3) {
runtimeError(TOO_MANY_ARGS, "Expecting 2 args for inequal instruction", &gi, i);
}
if (gi.args.args[0].type != VALUE && gi.args.args[0].type != VALREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting an Int for arg 1", &gi, i);
}
if (gi.args.args[1].type != VALUE && gi.args.args[1].type != VALREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting an Int for arg 2", &gi, i);
}
if (gi.args.args[2].type != DIRREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting a DirectRef for arg 3", &gi, i);
}
char* varName= gi.args.args[2].value.refName;
APPEND_ESTR(start, " ; inequal\n");
APPEND_ESTR(start, " mov rax, ");
APPEND_ESTR(start, processValueString(gi.args.args[0], &varTable, NULL, &doubleTable, &rodata, &doubleConstCounter));
APPEND_ESTR(start, "\n");
APPEND_ESTR(start, " cmp rax, ");
APPEND_ESTR(start, processValueString(gi.args.args[1], &varTable, NULL, &doubleTable, &rodata, &doubleConstCounter));
APPEND_ESTR(start, "\n");
APPEND_ESTR(start, " setne al\n");
APPEND_ESTR(start, " movzx rax, al\n");
APPEND_ESTR(start, " mov [");
APPEND_ESTR(start, varName);
APPEND_ESTR(start, "], rax\n");
break;
}
case GREATER: {
if (gi.args.length < 3) {
runtimeError(TOO_FEW_ARGS, "Expecting 2 args for greater instruction", &gi, i);
}
if (gi.args.length > 3) {
runtimeError(TOO_MANY_ARGS, "Expecting 2 args for greater instruction", &gi, i);
}
if (gi.args.args[0].type != VALUE && gi.args.args[0].type != VALREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting an Int for arg 1", &gi, i);
}
if (gi.args.args[1].type != VALUE && gi.args.args[1].type != VALREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting an Int for arg 2", &gi, i);
}
if (gi.args.args[2].type != DIRREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting a DirectRef for arg 3", &gi, i);
}
char* varName= gi.args.args[2].value.refName;
APPEND_ESTR(start, " ; greater\n");
APPEND_ESTR(start, " mov rax, ");
APPEND_ESTR(start, processValueString(gi.args.args[0], &varTable, NULL, &doubleTable, &rodata, &doubleConstCounter));
APPEND_ESTR(start, "\n");
APPEND_ESTR(start, " cmp rax, ");
APPEND_ESTR(start, processValueString(gi.args.args[1], &varTable, NULL, &doubleTable, &rodata, &doubleConstCounter));
APPEND_ESTR(start, "\n");
APPEND_ESTR(start, " setg al\n");
APPEND_ESTR(start, " movzx rax, al\n");
APPEND_ESTR(start, " mov [");
APPEND_ESTR(start, varName);
APPEND_ESTR(start, "], rax\n");
break;
}
case LESSER: {
if (gi.args.length < 3) {
runtimeError(TOO_FEW_ARGS, "Expecting 2 args for lesser instruction", &gi, i);
}
if (gi.args.length > 3) {
runtimeError(TOO_MANY_ARGS, "Expecting 2 args for lesser instruction", &gi, i);
}
if (gi.args.args[0].type != VALUE && gi.args.args[0].type != VALREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting an Int for arg 1", &gi, i);
}
if (gi.args.args[1].type != VALUE && gi.args.args[1].type != VALREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting an Int for arg 2", &gi, i);
}
if (gi.args.args[2].type != DIRREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting a DirectRef for arg 3", &gi, i);
}
char* varName= gi.args.args[2].value.refName;
APPEND_ESTR(start, " ; lesser\n");
APPEND_ESTR(start, " mov rax, ");
APPEND_ESTR(start, processValueString(gi.args.args[0], &varTable, NULL, &doubleTable, &rodata, &doubleConstCounter));
APPEND_ESTR(start, "\n");
APPEND_ESTR(start, " cmp rax, ");
APPEND_ESTR(start, processValueString(gi.args.args[1], &varTable, NULL, &doubleTable, &rodata, &doubleConstCounter));
APPEND_ESTR(start, "\n");
APPEND_ESTR(start, " setl al\n");
APPEND_ESTR(start, " movzx rax, al\n");
APPEND_ESTR(start, " mov [");
APPEND_ESTR(start, varName);
APPEND_ESTR(start, "], rax\n");
break;
}
case PRINT:
case PRINTLN: {
if (gi.args.length < 1) {
runtimeError(TOO_FEW_ARGS, "Expecting 1 or more args", &gi, i);
}
for (size_t j = 0; j < gi.args.length; j++) {
if (gi.args.args[j].type != VALUE && gi.args.args[j].type != VALREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting a Value", &gi, i);
}
if (j > 0) {
// Print space between arguments
APPEND_ESTR(start, " ; print space\n");
APPEND_ESTR(start, " mov rax, 1\n");
APPEND_ESTR(start, " mov rdi, 1\n");
APPEND_ESTR(start, " lea rsi, [rel space_char]\n");
APPEND_ESTR(start, " mov rdx, 1\n");
APPEND_ESTR(start, " syscall\n");
}
APPEND_ESTR(start, " ; print int\n");
APPEND_ESTR(start, " mov rax, ");
APPEND_ESTR(start, processValueString(gi.args.args[j], &varTable, NULL, &doubleTable, &rodata, &doubleConstCounter));
APPEND_ESTR(start, "\n");
APPEND_ESTR(start, " call print_int\n");
}
if (gi.type == PRINTLN) {
APPEND_ESTR(start, " ; print newline\n");
APPEND_ESTR(start, " mov rax, 1\n");
APPEND_ESTR(start, " mov rdi, 1\n");
APPEND_ESTR(start, " lea rsi, [rel newline_char]\n");
APPEND_ESTR(start, " mov rdx, 1\n");
APPEND_ESTR(start, " syscall\n");
}
break;
}
case END: {
if (gi.args.length < 1) {
runtimeError(TOO_FEW_ARGS, "Expecting 1 arg for end instruction", &gi, i);
}
if (gi.args.length > 1) {
runtimeError(TOO_MANY_ARGS, "Expecting 1 arg for end instruction", &gi, i);
}
APPEND_ESTR(start, " ; end\n");
APPEND_ESTR(start, " mov rax, 60\n");
APPEND_ESTR(start, " mov rdi, ");
APPEND_ESTR(start, processValueString(gi.args.args[0], &varTable, NULL, &doubleTable, &rodata, &doubleConstCounter));
APPEND_ESTR(start, "\n");
APPEND_ESTR(start, " syscall\n");
break;
}
case DROP: {
// Drop does nothing in ground->asm as we use the stack
break;
}
default: {
printf("no\n");
exit(1);
}
}
}
Estr complete = CREATE_ESTR("");
APPEND_ESTR(complete, start.str);
APPEND_ESTR(complete, " ; End of program\n mov rax, 60\n mov rdi, 0\n syscall\n");
APPEND_ESTR(complete, helpers.str);
APPEND_ESTR(complete, data.str);
APPEND_ESTR(complete, rodata.str);
return complete.str;
}

28
src/compiler.h Normal file
View File

@@ -0,0 +1,28 @@
#include "types.h"
#include "interpreter.h"
char* compileGroundProgram(GroundProgram* program);
[[noreturn]] void runtimeError(GroundRuntimeError error, char* what, GroundInstruction* where, int whereLine);
typedef struct VariableInfo {
char name[256];
int offset;
GroundValueType type;
} VariableInfo;
typedef struct VariableTable {
VariableInfo* vars;
size_t count;
size_t capacity;
} VariableTable;
typedef struct DoubleConstant {
double value;
char label[64];
} DoubleConstant;
typedef struct DoubleTable {
DoubleConstant* constants;
size_t count;
size_t capacity;
} DoubleTable;

52
src/include/estr.h Normal file
View File

@@ -0,0 +1,52 @@
#include <stddef.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#ifndef ESTR_H
#define ESTR_H
/*
estr.h - Easy string manipulation
This library has macros to allow easier manipulation of strings. No longer shall
you have to malloc and realloc away to keep adding to your strings.
Usage:
Estr myString = CREATE_ESTR("my awesome string");
APPEND_ESTR(myString, " is so cool");
printf("%s\n", myString.str);
*/
#define CREATE_ESTR(instr) \
(Estr) { \
.str = instr,\
.size = strlen(instr),\
.shouldBeFreed = 0, \
.destroyed = 0 \
}
#define APPEND_ESTR(estr, instr) { \
estr.size = estr.size + strlen(instr); \
char* tmp_ptr = malloc(estr.size + 1); \
if (tmp_ptr == NULL) printf("WARNING: Could not realloc estr " #estr "\n"); \
else { \
snprintf(tmp_ptr, estr.size + 1, "%s%s", estr.str, instr); \
if (estr.shouldBeFreed > 0) free(estr.str); \
estr.shouldBeFreed = 1; \
estr.str = tmp_ptr; \
} \
}
#define DESTROY_ESTR(estr) if (estr.shouldBeFreed > 0 && estr.destroyed < 1) free(estr.str);
typedef struct Estr {
char* str;
size_t size;
int8_t shouldBeFreed;
int8_t destroyed;
} Estr;
#endif // ESTR_H

42
src/interface.c
View File

@@ -1,6 +1,6 @@
#include "lexer.h"
#include "parser.h"
#include "interpreter.h"
#include "compiler.h"
#include "types.h"
#include <stdlib.h>
@@ -68,11 +68,30 @@ GroundValue groundCreateValue(GroundValueType type, ...) {
return createListGroundValue(va_arg(args, List));
break;
}
default: {
case FUNCTION: {
return createFunctionGroundValue(va_arg(args, GroundFunction*));
break;
}
case STRUCTVAL: {
GroundValue gv;
gv.type = STRUCTVAL;
gv.data.structVal = malloc(sizeof(GroundStruct));
*gv.data.structVal = va_arg(args, GroundStruct);
return gv;
}
case NONE: {
return createNoneGroundValue();
break;
}
case ERROR:
case CUSTOM: {
// FIXME
break;
}
}
return createNoneGroundValue();
va_end(args);
}
@@ -90,3 +109,22 @@ void groundPrintProgram(GroundProgram* program) {
GroundProgram groundParseFile(const char* code) {
return parseFile(code);
}
GroundStruct groundCreateStruct() {
GroundStruct gs;
gs.size = 0;
gs.fields = malloc(sizeof(GroundStructField));
return gs;
}
void groundAddValueToScope(GroundScope* gs, const char* name, GroundValue value) {
addVariable(gs->variables, name, value);
}
void groundAddFieldToStruct(GroundStruct* gstruct, char* name, GroundValue field) {
addFieldToStruct(gstruct, name, field);
}
char* groundCompileProgram(GroundProgram* program) {
return compileGroundProgram(program);
}

110
src/interpreter.c
View File

@@ -13,6 +13,23 @@ int currentInstruction = 0;
bool isMainScopeGlobal = true;
[[noreturn]] void customError(GroundArg type, GroundArg what, GroundInstruction* where, int whereLine, int exitCode) {
printf("Ground runtime error:\n ErrorType: ");
printGroundArg(&type);
printf("\n ErrorContext: ");
printGroundArg(&what);
printf("\n");
if (where != NULL) {
printf(" ErrorInstruction: ");
printGroundInstruction(where);
printf("\n");
}
if (whereLine > -1) {
printf(" ErrorLine: %d\n", whereLine + 1);
}
exit(exitCode);
}
[[noreturn]] void runtimeError(GroundRuntimeError error, char* what, GroundInstruction* where, int whereLine) {
printf("Ground runtime error:\n ErrorType: ");
switch (error) {
@@ -335,7 +352,7 @@ GroundStruct parseStruct(GroundProgram* in, GroundScope* scope, size_t errorOffs
GroundValue gv;
switch (stringToValueType(in->instructions[i].args.args[0].value.refName)) {
switch (stringToValueType(in->instructions[i].args.args[1].value.refName)) {
case INT: {
gv = createIntGroundValue(0);
break;
@@ -382,6 +399,7 @@ GroundStruct parseStruct(GroundProgram* in, GroundScope* scope, size_t errorOffs
gv.type = CUSTOM;
gv.data.customVal = malloc(sizeof(GroundObject));
*gv.data.customVal = createObject(*gstruct);
gv.customType = gstruct;
break;
}
case NONE: {
@@ -813,7 +831,19 @@ GroundValue interpretGroundInstruction(GroundInstruction inst, GroundScope* scop
}
break;
}
case ERRORCMD: {
if (in->args.length < 3) {
runtimeError(TOO_FEW_ARGS, "Expecting 3 args", in, currentInstruction);
} else if (in->args.length > 3) {
runtimeError(TOO_MANY_ARGS, "Expecting 3 args", in, currentInstruction);
}
if (in->args.args[2].value.value.type != INT ) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting an int for arg 2", in, currentInstruction);
}
customError(in->args.args[0], in->args.args[1], in, currentInstruction, in->args.args[2].value.value.data.intVal);
break;
}
/*
* VARIABLES AND LISTS
* These instructions are for initializing variables and lists.
@@ -1753,7 +1783,8 @@ GroundValue interpretGroundInstruction(GroundInstruction inst, GroundScope* scop
if (in->args.args[i + 1].type != VALUE) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting a Value", in, currentInstruction);
}
if (in->args.args[i + 1].value.value.type != function->args[i].type) {
//if (in->args.args[i + 1].value.value.type != function->args[i].type) {
if (!checkFnTypes(&in->args.args[i + 1].value.value, &function->args[i])) {
runtimeError(ARG_TYPE_MISMATCH, "Mismatched function argument types", in, currentInstruction);
}
appendToList(&argsList, in->args.args[i + 1].value.value);
@@ -1781,7 +1812,8 @@ GroundValue interpretGroundInstruction(GroundInstruction inst, GroundScope* scop
if (in->args.args[i + 1].type != VALUE) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting a Value", in, currentInstruction);
}
if (in->args.args[i + 1].value.value.type != function->args[i].type) {
//if (in->args.args[i + 1].value.value.type != function->args[i].type) {
if (!checkFnTypes(&in->args.args[i + 1].value.value, &function->args[i])) {
runtimeError(ARG_TYPE_MISMATCH, "Mismatched function argument types", in, currentInstruction);
}
addVariable(newScope.variables, function->args[i].name, in->args.args[i + 1].value.value);
@@ -1979,6 +2011,7 @@ GroundValue interpretGroundInstruction(GroundInstruction inst, GroundScope* scop
gv.type = CUSTOM;
gv.data.customVal = malloc(sizeof(GroundObject));
*gv.data.customVal = createObject(*gstruct);
gv.customType = gstruct;
break;
}
case NONE: {
@@ -1995,6 +2028,77 @@ GroundValue interpretGroundInstruction(GroundInstruction inst, GroundScope* scop
break;
}
/*
* OBJECTS
* Allows manipulation of Ground objects.
*/
// getfield $obj &field &result
case GETFIELD: {
if (in->args.length < 3) {
runtimeError(TOO_FEW_ARGS, "Expecting 3 args", in, currentInstruction);
}
if (in->args.length > 3) {
runtimeError(TOO_MANY_ARGS, "Expecting 3 args", in, currentInstruction);
}
if (in->args.args[0].type != VALUE) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting an Object for arg 1", in, currentInstruction);
}
if (in->args.args[0].value.value.type != CUSTOM) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting an Object for arg 1", in, currentInstruction);
}
if (in->args.args[1].type != DIRREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting a DirectRef for arg 2", in, currentInstruction);
}
if (in->args.args[2].type != DIRREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting a DirectRef for arg 3", in, currentInstruction);
}
GroundObjectField* field = findField(*in->args.args[0].value.value.data.customVal, in->args.args[1].value.refName);
if (field == NULL) {
runtimeError(UNKNOWN_VARIABLE, "Struct does not contain that field", in, currentInstruction);
}
addVariable(scope->variables, in->args.args[2].value.refName, field->value);
break;
}
// setfield &obj &field $value
case SETFIELD: {
if (in->args.length < 3) {
runtimeError(TOO_FEW_ARGS, "Expecting 3 args", in, currentInstruction);
}
if (in->args.length > 3) {
runtimeError(TOO_MANY_ARGS, "Expecting 3 args", in, currentInstruction);
}
if (in->args.args[0].type != DIRREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting a DirectRef to an Object for arg 1", in, currentInstruction);
}
if (in->args.args[1].type != DIRREF) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting a DirectRef for arg 2", in, currentInstruction);
}
if (in->args.args[2].type != VALUE) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting a Value for arg 3", in, currentInstruction);
}
GroundVariable* var = findVariable(*scope->variables, in->args.args[0].value.refName);
if (var == NULL) {
runtimeError(UNKNOWN_VARIABLE, "Could not find that object", in, currentInstruction);
}
if (var->value.type != CUSTOM) {
runtimeError(ARG_TYPE_MISMATCH, "Expecting a DirectRef to an Object for arg 1", in, currentInstruction);
}
GroundObjectField* field = findField(*var->value.data.customVal, in->args.args[1].value.refName);
if (field == NULL) {
runtimeError(UNKNOWN_VARIABLE, "Struct does not contain that field", in, currentInstruction);
}
if (field->value.type != in->args.args[2].value.value.type) {
runtimeError(ARG_TYPE_MISMATCH, "Field type and provided type do not match", in, currentInstruction);
}
field->value = copyGroundValue(&in->args.args[2].value.value);
break;
}
case DROP: {
if (in->args.length < 1) {
runtimeError(TOO_FEW_ARGS, "Expecting 1 arg", in, currentInstruction);

1
src/interpreter.h
View File

@@ -42,6 +42,7 @@ GroundFunction* parseFunction(GroundProgram* in, size_t errorOffset);
GroundValue interpretGroundProgram(GroundProgram* in, GroundScope* inScope);
GroundValue interpretGroundInstruction(GroundInstruction inst, GroundScope* scope);
void addVariable(GroundVariable **head, const char *id, GroundValue data);

46
src/main.c
View File

@@ -1,5 +1,6 @@
#include "parser.h"
#include "interpreter.h"
#include "compiler.h"
#include <stdio.h>
char* getFileContents(const char* filename) {
@@ -39,6 +40,7 @@ char* getFileContents(const char* filename) {
}
int main(int argc, char** argv) {
/*
if (argc < 2) {
printf("Usage: ground [file]\n");
exit(1);
@@ -46,5 +48,49 @@ int main(int argc, char** argv) {
char* file = getFileContents(argv[1]);
GroundProgram program = parseFile(file);
free(file);
char* compiled = compileGroundProgram(&program);
printf("%s\n", compiled);
interpretGroundProgram(&program, NULL);
*/
if (argc < 2) {
printf("Usage: %s <file> [-c] [--compile] [-h] [--help]\n", argv[0]);
exit(1);
}
bool compile = false;
char* fileName = NULL;
for (int i = 1; i < argc; i++) {
if (strcmp("--compile", argv[i]) == 0 || strcmp("-c", argv[i]) == 0) {
compile = true;
}
else if (strcmp("--help", argv[i]) == 0 || strcmp("-h", argv[i]) == 0) {
printf("GroundVM help\n");
printf("Usage: %s <file> [-c] [--compile] [-h] [--help]\n", argv[0]);
printf("Options:\n");
printf(" -c or --compile: Outputs Linux x86_64 assembly instead of interpreting (WIP)\n");
printf(" -h or --help: Shows this help message\n");
exit(0);
} else {
fileName = argv[i];
}
}
if (fileName == NULL) {
printf("Usage: %s <file> [-c] [--compile] [-h] [--help]\n", argv[0]);
printf("Error: No file name provided\n");
exit(1);
}
char* file = getFileContents(fileName);
GroundProgram program = parseFile(file);
free(file);
if (compile) {
char* compiled = compileGroundProgram(&program);
printf("%s\n", compiled);
} else {
interpretGroundProgram(&program, NULL);
}
}

3
src/parser.c
View File

@@ -137,6 +137,7 @@ static GroundInstType getInstructionType(const char* inst) {
if (strcmp(inst, "input") == 0 || strcmp(inst, "stdin") == 0) return INPUT;
if (strcmp(inst, "print") == 0 || strcmp(inst, "stdout") == 0) return PRINT;
if (strcmp(inst, "println") == 0 || strcmp(inst, "stdlnout") == 0) return PRINTLN;
if (strcmp(inst, "error") == 0) return ERRORCMD;
if (strcmp(inst, "set") == 0) return SET;
if (strcmp(inst, "gettype") == 0) return GETTYPE;
if (strcmp(inst, "exists") == 0) return EXISTS;
@@ -167,6 +168,8 @@ static GroundInstType getInstructionType(const char* inst) {
if (strcmp(inst, "struct") == 0) return STRUCT;
if (strcmp(inst, "endstruct") == 0) return ENDSTRUCT;
if (strcmp(inst, "init") == 0) return INIT;
if (strcmp(inst, "getfield") == 0) return GETFIELD;
if (strcmp(inst, "setfield") == 0) return SETFIELD;
if (strcmp(inst, "use") == 0) return USE;
if (strcmp(inst, "extern") == 0) return EXTERN;
if (strcmp(inst, "drop") == 0) return DROP;

43
src/types.c
View File

@@ -412,6 +412,9 @@ void printGroundInstruction(GroundInstruction* gi) {
break;
case CREATELABEL:
break;
case ERRORCMD:
printf("error");
break;
default:
printf("FIXME");
break;
@@ -582,3 +585,43 @@ GroundError createGroundError(char* what, char* type, GroundInstruction* where,
return ge;
}
bool checkFnTypes(GroundValue* left, GroundFunctionArgs* right) {
if (left->type != right->type) {
return false;
}
if (left->type == CUSTOM) {
if (left->customType->size != right->customType->size) {
return false;
}
for (size_t i = 0; i < left->customType->size; i++) {
if (strcmp(left->customType->fields[i].id, right->customType->fields[i].id) != 0) {
return false;
}
if (!checkTypes(&left->customType->fields[i].value, &right->customType->fields[i].value)) {
return false;
}
}
}
return true;
}
bool checkTypes(GroundValue* left, GroundValue* right) {
if (left->type != right->type) {
return false;
}
if (left->type == CUSTOM) {
if (left->customType->size != right->customType->size) {
return false;
}
for (size_t i = 0; i < left->customType->size; i++) {
if (strcmp(left->customType->fields[i].id, right->customType->fields[i].id) != 0) {
return false;
}
if (!checkTypes(&left->customType->fields[i].value, &right->customType->fields[i].value)) {
return false;
}
}
}
return true;
}

9
src/types.h
View File

@@ -9,7 +9,7 @@
#include "include/uthash.h"
typedef enum GroundInstType {
IF, JUMP, END, INPUT, PRINT, PRINTLN, SET, GETTYPE, EXISTS, SETLIST, SETLISTAT, GETLISTAT, GETLISTSIZE, LISTAPPEND, GETSTRSIZE, GETSTRCHARAT, ADD, SUBTRACT, MULTIPLY, DIVIDE, EQUAL, INEQUAL, NOT, GREATER, LESSER, STOI, STOD, TOSTRING, FUN, RETURN, ENDFUN, PUSHARG, CALL, STRUCT, ENDSTRUCT, INIT, USE, EXTERN, CREATELABEL, PAUSE, DROP
IF, JUMP, END, INPUT, PRINT, PRINTLN, SET, GETTYPE, EXISTS, SETLIST, SETLISTAT, GETLISTAT, GETLISTSIZE, LISTAPPEND, GETSTRSIZE, GETSTRCHARAT, ADD, SUBTRACT, MULTIPLY, DIVIDE, EQUAL, INEQUAL, NOT, GREATER, LESSER, STOI, STOD, TOSTRING, FUN, RETURN, ENDFUN, PUSHARG, CALL, STRUCT, ENDSTRUCT, INIT, GETFIELD, SETFIELD, USE, EXTERN, CREATELABEL, PAUSE, DROP, ERRORCMD
} GroundInstType;
typedef enum GroundValueType {
@@ -62,6 +62,7 @@ typedef struct GroundError {
*/
typedef struct GroundValue {
GroundValueType type;
struct GroundStruct* customType;
union {
int64_t intVal;
double doubleVal;
@@ -125,6 +126,7 @@ typedef struct GroundProgram {
*/
typedef struct GroundFunctionArgs {
GroundValueType type;
struct GroundStruct* customType;
char* name;
} GroundFunctionArgs;
@@ -276,6 +278,11 @@ void freeGroundObject(GroundObject* object);
// Creates a GroundError.
GroundError createGroundError(char* what, char* type, GroundInstruction* where, size_t* line);
// Compares types of a value and function args.
bool checkFnTypes(GroundValue* left, GroundFunctionArgs* arg);
// Compares types of two values.
bool checkTypes(GroundValue* left, GroundValue* right);
#endif

2
tests/error.grnd Normal file
View File

@@ -0,0 +1,2 @@
setlist &dat 1 2 3 "Hi!"
error "Hello" $dat 1

17
tests/struct.grnd Normal file
View File

@@ -0,0 +1,17 @@
struct -point
init &x -int
init &y -int
endstruct
init &mypoint -point
setfield &mypoint &x 53
setfield &mypoint &y 32
getfield $mypoint &x &value
println $value
getfield $mypoint &y &value
println $value