pervognsen/deck.cpp

## deck.cpp
#include <stdlib.h>
#include <string.h>
#include <stdarg.h>
#include <stdio.h>
#include <stdint.h>

#define WIN32_LEAN_AND_MEAN
#include <windows.h>

void error(const char *str) {
    MessageBoxA(NULL, str, "Error", MB_OK);
    __debugbreak();
}

void errorf(const char *format, ...) {
    char buffer[1024];
    va_list args;
    va_start(args, format);
    vsprintf_s(buffer, sizeof(buffer), format, args);
    va_end(args);
    error(buffer);
}

const char *code;

enum {
    MAX_SYMBOLS = 256
};

typedef struct {
    const char *string;
    int keyword : 1;
    int variable : 31;
} symbol_t;

symbol_t symbols[MAX_SYMBOLS];
size_t num_symbols;
size_t num_variables;

symbol_t *intern(const char *start, const char *end) {
    for (size_t i = 0; i < num_symbols; i++) {
        const char *symbol_string = symbols[i].string;
        const char *string = start;
        while (*symbol_string != 0 && string != end && *symbol_string == *string) {
            symbol_string++;
            string++;
        }
        if (*symbol_string == 0 && string == end) {
            return symbols + i;
        }
    }
    if (num_symbols == MAX_SYMBOLS) {
        error("symbol table overflow");
    }
    size_t size = end - start + 1;
    char *new_symbol = (char *)malloc(size);
    memcpy(new_symbol, start, size);
    new_symbol[size - 1] = 0;
    num_symbols++;
    symbols[num_symbols-1].string = new_symbol;
    symbols[num_symbols-1].keyword = 0;
    symbols[num_symbols-1].variable = -1;
    return symbols + num_symbols - 1;
}

typedef enum {
    LIT,
    GET,
    SET,
    POP,
    JMP,
    BRZ,
    ADD,
    SUB,
    MUL,
    DIV,
    MOD,
    NEG,
    RET
} opcode_t;

char *emit_pointer;

void emit(uint8_t data) {
    *emit_pointer++ = data;
}

void emit4(uint32_t data) {
    *(uint32_t *)emit_pointer = data;
    emit_pointer += 4;
}

char *ip;
int *sp;
int *fp;

int execute() {
    for (;;) {
        int op = *ip++;
        switch (op) {
        case LIT:
            *sp++ = *(uint32_t *)ip;
            ip += 4;
            break;
        case GET:
            *sp++ = fp[*ip];
            ip++;
            break;
        case SET:
            fp[*ip] = sp[-1];
            ip++;
            sp--;
            break;
        case POP:
            sp--;
            break;
        case JMP:
            ip += *(int32_t *)ip;
            break;
        case BRZ:
            if (sp[-1] == 0) {
                ip += *(int32_t *)ip;
            } else {
                ip += 4;
            }
            sp--;
            break;
        case ADD:
            sp[-2] += sp[-1];
            sp--;
            break;
        case SUB:
            sp[-2] -= sp[-1];
            sp--;
            break;
        case MUL:
            sp[-2] *= sp[-1];
            sp--;
            break;
        case DIV:
            sp[-2] /= sp[-1];
            sp--;
            break;
        case MOD:
            sp[-2] %= sp[-1];
            sp--;
            break;
        case NEG:
            sp[-1] = -sp[-1];
            break;
        case RET:
            return sp[-1];
        }
    }
}

typedef enum {
    TOKEN_NUMBER = 128,
    TOKEN_IDENTIFIER,
    TOKEN_EQUALS,
    TOKEN_KEYWORD
} token_t;

token_t token;
int token_number;
symbol_t *token_symbol;

symbol_t *symbol_if;
symbol_t *symbol_else;
symbol_t *symbol_elseif;
symbol_t *symbol_while;
symbol_t *symbol_for;
symbol_t *symbol_return;

#define KEYWORD(name) \
    symbol_##name = intern(#name, #name + strlen(#name)); \
    symbol_##name->keyword = 1;

void initialize_keywords() {
    KEYWORD(if);
    KEYWORD(else);
    KEYWORD(elseif);
    KEYWORD(while);
    KEYWORD(for);
    KEYWORD(return);
}

void next_token() {
    token_symbol = NULL;
    while (isspace(*code)) {
        code++;
    }
    if (isdigit(*code)) {
        token_number = 0;
        while (isdigit(*code)) {
            token_number *= 10;
            token_number += *code - '0';
            code++;
        }
        token = TOKEN_NUMBER;
    } else if (isalpha(*code)) {
        const char *start = code;
        while (isalnum(*code)) {
            code++;
        }
        const char *end = code;
        token_symbol = intern(start, end);
        if (token_symbol->keyword)
            token = TOKEN_KEYWORD;
        else
            token = TOKEN_IDENTIFIER;
    } else {
        switch (*code) {
        case 0:
        case '+':
        case '-':
        case '*':
        case '/':
        case '%':
        case '&':
        case '|':
        case '^':
        case '~':
        case '!':
        case '(':
        case ')':
        case '{':
        case '}':
        case ';':
            token = (token_t)*code;
            code++;
            break;
        case '=':
            code++;
            if (*code == '=') {
                code++;
                token = TOKEN_EQUALS;
            } else {
                token = (token_t)'=';
            }
            break;
        default:
            errorf("Unexpected initial token character: '%c'", *code);
            break;
        }
    }
}

void expect_token(int expected_token) {
    if (token != expected_token) {
        errorf("Expected token %d, got %d.", expected_token, token);
    }
    next_token();
}

void expr();

// expr2 = number | identifier | '(' expr ')' | '-' expr2
void expr2() {
    if (token == TOKEN_NUMBER) {
        next_token();
        emit(LIT);
        emit4(token_number);
    } else if (token == TOKEN_IDENTIFIER) {
        if (token_symbol->variable == -1) {
            token_symbol->variable = num_variables++;
        }
        int variable = token_symbol->variable;
        next_token();
        if (token == '=') {
            next_token();
            expr();
            emit(SET);
            emit((char)variable);
        }
        emit(GET);
        emit((char)variable);
    } else if (token == '(') {
        next_token();
        expr();
        expect_token(')');
    } else if (token == '-') {
        next_token();
        expr2();
        emit(NEG);
    } else {
        errorf("Unexpected token at beginning of expression.");
    }
}

typedef struct {
    char *address;
    char *reference;
} label_t;

void emit_label_reference(label_t *label) {
    char *reference = emit_pointer;
    if (label->address) {
        emit4(label->address - reference);
    } else {
        emit4(label->reference - reference);
        label->reference = reference;
    }
}

void resolve_label(label_t *label) {
    char *address = emit_pointer;
    label->address = address;
    char *reference = label->reference;
    while (reference) {
        int32_t offset = *(int32_t *)reference;
        *(int32_t *)reference = address - reference;
        reference += offset;
    }
    label->reference = NULL;
}

// expr1 = expr2 {'*' expr2 | '/' expr2 | '%' expr2}
void expr1() {
    expr2();
    while (token == '*' || token == '/' || token == '%') {
        token_t op = token;
        next_token();
        expr2();
        if (op == '*') {
            emit(MUL);
        } else if (op == '/') {
            emit(DIV);
        } else {
            emit(MOD);
        }
    }
}

// expr = expr1 {'+' expr1 | '-' expr1}
void expr() {
    expr1();
    while (token == '+' || token == '-') {
        token_t op = token;
        next_token();
        expr1();
        if (op == '+') {
            emit(ADD);
        } else {
            emit(SUB);
        }
    }
}

void stmt();

// stmt_block = '{' {stmt} '}'
void stmt_block() {
    expect_token('{');
    while (token && token != '}') {
        stmt();
    }
    expect_token('}');
}

// stmt = 'if' expr stmt_block {'elseif' expr stmt_block} ['else' stmt_block]
//      | 'while' expr stmt_block
//      | 'return' expr ';'
//      | stmt_block
//      | expr ';'
void stmt() {
    if (token_symbol == symbol_if) {
        label_t next = {0};
        label_t end = {0};
        next_token();
        expr();
        emit(BRZ);
        emit_label_reference(&next);
        stmt_block();
        while (token_symbol == symbol_elseif) {
            next_token();
            emit(JMP);
            emit_label_reference(&end);
            resolve_label(&next);
            next.address = NULL;
            expr();
            emit(BRZ);
            emit_label_reference(&next);
            stmt_block();
        }
        if (token_symbol == symbol_else) {
            next_token();
            emit(JMP);
            emit_label_reference(&end);
            resolve_label(&next);
            stmt_block();
        }
        resolve_label(&end);
    } else if (token_symbol == symbol_while) {
        next_token();
        label_t start = {0};
        resolve_label(&start);
        expr();
        emit(BRZ);
        label_t end = {0};
        emit_label_reference(&end);
        stmt_block();
        emit(JMP);
        emit_label_reference(&start);
        resolve_label(&end);
    } else if (token_symbol == symbol_return) {
        next_token();
        expr();
        expect_token(';');
        emit(RET);
    } else if (token == '{') {
        stmt_block();
    } else {
        expr();
        emit(POP);
        expect_token(';');
    }
}

int WINAPI WinMain(HINSTANCE instance, HINSTANCE prev_instance, LPSTR cmd_line, int cmd_show) {
    char emit_buffer[1024];
    emit_pointer = emit_buffer;

    initialize_keywords();
    //    code = "{ x = 42; y = 1 + 3; return x + y; }";
    //    code = "{ x = 1; if 1 { x = 2; } return x+2; }";
    //    code = "{ x = 1; if 0 { x = 2; } else { x = 3; } return x+2; }";
        code = "{ x = 1; if 0 { x = 2; } elseif 1 { x = 3; } else { x = 4; } return x+2; }";
    code = "{ x = 1; n = 3; while n { x = x * 2; n = n - 1; } return x; }";
    next_token();
    stmt();

    int frame[1024];
    int stack[1024];
    ip = emit_buffer;
    fp = frame;
    sp = stack;

    int val = execute();

    return 0;
}
	#include <stdlib.h>
	#include <string.h>
	#include <stdarg.h>
	#include <stdio.h>
	#include <stdint.h>

	#define WIN32_LEAN_AND_MEAN
	#include <windows.h>

	void error(const char *str) {
	MessageBoxA(NULL, str, "Error", MB_OK);
	__debugbreak();
	}

	void errorf(const char *format, ...) {
	char buffer[1024];
	va_list args;
	va_start(args, format);
	vsprintf_s(buffer, sizeof(buffer), format, args);
	va_end(args);
	error(buffer);
	}

	const char *code;

	enum {
	MAX_SYMBOLS = 256
	};

	typedef struct {
	const char *string;
	int keyword : 1;
	int variable : 31;
	} symbol_t;

	symbol_t symbols[MAX_SYMBOLS];
	size_t num_symbols;
	size_t num_variables;

	symbol_t intern(const char start, const char *end) {
	for (size_t i = 0; i < num_symbols; i++) {
	const char *symbol_string = symbols[i].string;
	const char *string = start;
	while (symbol_string != 0 && string != end && symbol_string == *string) {
	symbol_string++;
	string++;
	}
	if (*symbol_string == 0 && string == end) {
	return symbols + i;
	}
	}
	if (num_symbols == MAX_SYMBOLS) {
	error("symbol table overflow");
	}
	size_t size = end - start + 1;
	char new_symbol = (char )malloc(size);
	memcpy(new_symbol, start, size);
	new_symbol[size - 1] = 0;
	num_symbols++;
	symbols[num_symbols-1].string = new_symbol;
	symbols[num_symbols-1].keyword = 0;
	symbols[num_symbols-1].variable = -1;
	return symbols + num_symbols - 1;
	}

	typedef enum {
	LIT,
	GET,
	SET,
	POP,
	JMP,
	BRZ,
	ADD,
	SUB,
	MUL,
	DIV,
	MOD,
	NEG,
	RET
	} opcode_t;

	char *emit_pointer;

	void emit(uint8_t data) {
	*emit_pointer++ = data;
	}

	void emit4(uint32_t data) {
	(uint32_t )emit_pointer = data;
	emit_pointer += 4;
	}

	char *ip;
	int *sp;
	int *fp;

	int execute() {
	for (;;) {
	int op = *ip++;
	switch (op) {
	case LIT:
	sp++ = (uint32_t *)ip;
	ip += 4;
	break;
	case GET:
	sp++ = fp[ip];
	ip++;
	break;
	case SET:
	fp[*ip] = sp[-1];
	ip++;
	sp--;
	break;
	case POP:
	sp--;
	break;
	case JMP:
	ip += (int32_t )ip;
	break;
	case BRZ:
	if (sp[-1] == 0) {
	ip += (int32_t )ip;
	} else {
	ip += 4;
	}
	sp--;
	break;
	case ADD:
	sp[-2] += sp[-1];
	sp--;
	break;
	case SUB:
	sp[-2] -= sp[-1];
	sp--;
	break;
	case MUL:
	sp[-2] *= sp[-1];
	sp--;
	break;
	case DIV:
	sp[-2] /= sp[-1];
	sp--;
	break;
	case MOD:
	sp[-2] %= sp[-1];
	sp--;
	break;
	case NEG:
	sp[-1] = -sp[-1];
	break;
	case RET:
	return sp[-1];
	}
	}
	}

	typedef enum {
	TOKEN_NUMBER = 128,
	TOKEN_IDENTIFIER,
	TOKEN_EQUALS,
	TOKEN_KEYWORD
	} token_t;

	token_t token;
	int token_number;
	symbol_t *token_symbol;

	symbol_t *symbol_if;
	symbol_t *symbol_else;
	symbol_t *symbol_elseif;
	symbol_t *symbol_while;
	symbol_t *symbol_for;
	symbol_t *symbol_return;

	#define KEYWORD(name) \
	symbol_##name = intern(#name, #name + strlen(#name)); \
	symbol_##name->keyword = 1;

	void initialize_keywords() {
	KEYWORD(if);
	KEYWORD(else);
	KEYWORD(elseif);
	KEYWORD(while);
	KEYWORD(for);
	KEYWORD(return);
	}

	void next_token() {
	token_symbol = NULL;
	while (isspace(*code)) {
	code++;
	}
	if (isdigit(*code)) {
	token_number = 0;
	while (isdigit(*code)) {
	token_number *= 10;
	token_number += *code - '0';
	code++;
	}
	token = TOKEN_NUMBER;
	} else if (isalpha(*code)) {
	const char *start = code;
	while (isalnum(*code)) {
	code++;
	}
	const char *end = code;
	token_symbol = intern(start, end);
	if (token_symbol->keyword)
	token = TOKEN_KEYWORD;
	else
	token = TOKEN_IDENTIFIER;
	} else {
	switch (*code) {
	case 0:
	case '+':
	case '-':
	case '*':
	case '/':
	case '%':
	case '&':
	case '\|':
	case '^':
	case '~':
	case '!':
	case '(':
	case ')':
	case '{':
	case '}':
	case ';':
	token = (token_t)*code;
	code++;
	break;
	case '=':
	code++;
	if (*code == '=') {
	code++;
	token = TOKEN_EQUALS;
	} else {
	token = (token_t)'=';
	}
	break;
	default:
	errorf("Unexpected initial token character: '%c'", *code);
	break;
	}
	}
	}

	void expect_token(int expected_token) {
	if (token != expected_token) {
	errorf("Expected token %d, got %d.", expected_token, token);
	}
	next_token();
	}

	void expr();

	// expr2 = number \| identifier \| '(' expr ')' \| '-' expr2
	void expr2() {
	if (token == TOKEN_NUMBER) {
	next_token();
	emit(LIT);
	emit4(token_number);
	} else if (token == TOKEN_IDENTIFIER) {
	if (token_symbol->variable == -1) {
	token_symbol->variable = num_variables++;
	}
	int variable = token_symbol->variable;
	next_token();
	if (token == '=') {
	next_token();
	expr();
	emit(SET);
	emit((char)variable);
	}
	emit(GET);
	emit((char)variable);
	} else if (token == '(') {
	next_token();
	expr();
	expect_token(')');
	} else if (token == '-') {
	next_token();
	expr2();
	emit(NEG);
	} else {
	errorf("Unexpected token at beginning of expression.");
	}
	}

	typedef struct {
	char *address;
	char *reference;
	} label_t;

	void emit_label_reference(label_t *label) {
	char *reference = emit_pointer;
	if (label->address) {
	emit4(label->address - reference);
	} else {
	emit4(label->reference - reference);
	label->reference = reference;
	}
	}

	void resolve_label(label_t *label) {
	char *address = emit_pointer;
	label->address = address;
	char *reference = label->reference;
	while (reference) {
	int32_t offset = (int32_t )reference;
	(int32_t )reference = address - reference;
	reference += offset;
	}
	label->reference = NULL;
	}

	// expr1 = expr2 {'*' expr2 \| '/' expr2 \| '%' expr2}
	void expr1() {
	expr2();
	while (token == '*' \|\| token == '/' \|\| token == '%') {
	token_t op = token;
	next_token();
	expr2();
	if (op == '*') {
	emit(MUL);
	} else if (op == '/') {
	emit(DIV);
	} else {
	emit(MOD);
	}
	}
	}

	// expr = expr1 {'+' expr1 \| '-' expr1}
	void expr() {
	expr1();
	while (token == '+' \|\| token == '-') {
	token_t op = token;
	next_token();
	expr1();
	if (op == '+') {
	emit(ADD);
	} else {
	emit(SUB);
	}
	}
	}

	void stmt();

	// stmt_block = '{' {stmt} '}'
	void stmt_block() {
	expect_token('{');
	while (token && token != '}') {
	stmt();
	}
	expect_token('}');
	}

	// stmt = 'if' expr stmt_block {'elseif' expr stmt_block} ['else' stmt_block]
	// \| 'while' expr stmt_block
	// \| 'return' expr ';'
	// \| stmt_block
	// \| expr ';'
	void stmt() {
	if (token_symbol == symbol_if) {
	label_t next = {0};
	label_t end = {0};
	next_token();
	expr();
	emit(BRZ);
	emit_label_reference(&next);
	stmt_block();
	while (token_symbol == symbol_elseif) {
	next_token();
	emit(JMP);
	emit_label_reference(&end);
	resolve_label(&next);
	next.address = NULL;
	expr();
	emit(BRZ);
	emit_label_reference(&next);
	stmt_block();
	}
	if (token_symbol == symbol_else) {
	next_token();
	emit(JMP);
	emit_label_reference(&end);
	resolve_label(&next);
	stmt_block();
	}
	resolve_label(&end);
	} else if (token_symbol == symbol_while) {
	next_token();
	label_t start = {0};
	resolve_label(&start);
	expr();
	emit(BRZ);
	label_t end = {0};
	emit_label_reference(&end);
	stmt_block();
	emit(JMP);
	emit_label_reference(&start);
	resolve_label(&end);
	} else if (token_symbol == symbol_return) {
	next_token();
	expr();
	expect_token(';');
	emit(RET);
	} else if (token == '{') {
	stmt_block();
	} else {
	expr();
	emit(POP);
	expect_token(';');
	}
	}

	int WINAPI WinMain(HINSTANCE instance, HINSTANCE prev_instance, LPSTR cmd_line, int cmd_show) {
	char emit_buffer[1024];
	emit_pointer = emit_buffer;

	initialize_keywords();
	// code = "{ x = 42; y = 1 + 3; return x + y; }";
	// code = "{ x = 1; if 1 { x = 2; } return x+2; }";
	// code = "{ x = 1; if 0 { x = 2; } else { x = 3; } return x+2; }";
	code = "{ x = 1; if 0 { x = 2; } elseif 1 { x = 3; } else { x = 4; } return x+2; }";
	code = "{ x = 1; n = 3; while n { x = x * 2; n = n - 1; } return x; }";
	next_token();
	stmt();

	int frame[1024];
	int stack[1024];
	ip = emit_buffer;
	fp = frame;
	sp = stack;

	int val = execute();

	return 0;
	}