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Added comments and fixed bugs\n\n- Added array.set\n- Added comments support\n- Fixed weird push/pop mismatches\n- Added more docs\n- Fixed examples

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Ludovic 'Archivist' Lagouardette 6 月之前
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共有 8 個文件被更改,包括 314 次插入32 次删除
  1. +103
    -1
      README.md
  2. +59
    -14
      lib.c
  3. +16
    -6
      main.c
  4. +53
    -0
      test/test01.nk
  5. +24
    -0
      test/test02.nk
  6. +0
    -9
      test/test03.nk
  7. +0
    -1
      test/test04.nk
  8. +59
    -1
      test/test06.nk

+ 103
- 1
README.md 查看文件

@ -26,4 +26,106 @@ It is possible to segregate unsafe allocations (allocations that should be hidde
- Main function has a size limit of 256 tokens (see `ink_compile`)
- Functions have a size limit of 256 tokens (see `ink_parse`)
- Functions have a count limit 128 labels (see `ink_parse`)
- Only non-main functions can use labels
- Only non-main functions can use labels
## Examples
### Hello World
```
[ 72 101 108 108 111 32 87 111 114 108 100 10 ]
array.print_utf8
```
### Clone array
```asm
# Clones an array, creating a new array
#
# @param array The array to clone into a new array
# @return a new array that contains the same elements as the source array
#
# array -> new_array
fn array.clone do
array.new 2 pluck array.size 0
# array new_array end it
2 pluck 2 pluck == end_loop jump_if
# array new_array end it
loop:
dup 5 pluck
# array new_array end it it array
array.index 4 pluck
# array new_array end it v new_array
array.push
# array new_array end it
1 +
2 pluck 2 pluck > loop jump_if
end_loop: drop drop swap drop
# new_array
end
```
### `+%` encryption
Encrypts a string with `(v + add_key) % modulo_key`. It modifies the array that was passed in.
```asm
# Encrypts things by doing `(v + add_key) % modulo_key`
#
# @param array An array of ints representing a string
# @param add_key Should be lower than the add key
# @param modulo_key Should ke higher than all the codepoints of the array
#
# array add_key modulo_key
fn encrypt do
3 pluck array.size
# array add_key modulo_key index
loop:
1 - dup 5 pluck
# array add_key modulo_key index index array
array.index
# array add_key modulo_key index v
4 pluck +
# array add_key modulo_key index (v + add_key)
3 pluck %
# array add_key modulo_key index ((v + add_key) % modulo_key)
2 pluck
# array add_key modulo_key index ((v + add_key) % modulo_key) index
6 pluck
# array add_key modulo_key index ((v + add_key) % modulo_key) index array
array.set
# array add_key modulo_key index
dup 0 != loop jump_if drop drop drop drop
end
# Prints a string as an array of ints
#
# @param array An array of ints representing a string
#
# array
fn string.dump do
dup array.size 0
# array end it
91 print_utf8
32 print_utf8
loop:
dup
# array end it it
4 pluck
# array end it it array
array.index print_int
32 print_utf8
1 +
# array end it
2 pluck 2 pluck > loop jump_if
# array end it
93 print_utf8
end
```
```asm
[ 72 101 108 108 111 32 87 111 114 108 100 10 ]
dup
32 128 encrypt
string.dump
```

+ 59
- 14
lib.c 查看文件

@ -461,9 +461,16 @@ static int ink_lex(struct context *pContext, char* buffer) {
int end;
int err;
end = 0;
restart_after_comment:
while(*buffer != 0) {
if(isspace(*buffer)) {
if(end == 1 && r[0] == '#') {
while(*buffer != '\n' && *buffer != 0) {
++buffer;
}
end = 0;
goto restart_after_comment;
}
err = ink_consume_one(&end, pContext, &buffer, r);
if(err < 0) {
pContext->panic = 1;
@ -1084,7 +1091,7 @@ static void print_stacktrace(struct context* _) {
break;
}
case INK_FUNCTION:{
n = _->native_words[thing.value].name;
n = _->words[thing.value].name;
while (*n) {
_->putchar(*n);
++n;
@ -1095,7 +1102,6 @@ static void print_stacktrace(struct context* _) {
_->putchar(*n);
++n;
}
_->free(n);
_->putchar(10);
break;
}
@ -1197,7 +1203,7 @@ static void is_equal(struct context* ctx) {
ink_pop(ctx);
ret.type = INK_INTEGER;
ret.value = a.value == b.value && a.type == b.type;
ink_push(ctx, ret);
}
static void is_different(struct context* ctx) {
@ -1216,7 +1222,7 @@ static void is_different(struct context* ctx) {
ink_pop(ctx);
ret.type = INK_INTEGER;
ret.value = !(a.value == b.value && a.type == b.type);
ink_push(ctx, ret);
}
#ifndef NOEXTRAARITHMETIC
@ -1404,24 +1410,26 @@ static void return_if(struct context* ctx) {
static void jump_if(struct context* ctx) {
struct ink_routine* currentRoutine;
struct elem a;
struct elem label;
struct elem condition;
currentRoutine = ctx->routines + ctx->routine_current;
if(currentRoutine->top < 1) {
if(currentRoutine->top < 2) {
ctx->panic = -1;
return;
}
a = currentRoutine->stack[currentRoutine->top-1];
if(a.type != INK_INTEGER) {
label = currentRoutine->stack[currentRoutine->top-1];
condition = currentRoutine->stack[currentRoutine->top-2];
if(label.type != INK_INTEGER || condition.type != INK_INTEGER) {
ctx->panic = -1;
return;
}
ink_pop(ctx);
if(a.value) {
ink_pop_fn(ctx);
a = currentRoutine->stack[currentRoutine->top-1];
currentRoutine->function_stack[currentRoutine->function_stack_top - 1].index += a.value - 3;
}
ink_pop(ctx);
ink_pop_fn(ctx);
if(condition.value) {
currentRoutine->function_stack[currentRoutine->function_stack_top - 1].index += label.value - 2;
}
return;
}
@ -1681,6 +1689,42 @@ static void index_array(struct context* ctx) {
ink_push(ctx, ary->elements[idx.value]);
}
static void set_array(struct context* ctx) {
int tid;
struct ink_routine *currentRoutine;
struct elem a;
struct ink_array *ary;
struct elem idx;
struct elem value;
tid = get_type_by_name(ctx, "array");
currentRoutine = ctx->routines + ctx->routine_current;
if (currentRoutine->top < 3 || currentRoutine->stack[currentRoutine->top - 1].type != tid || currentRoutine->stack[currentRoutine->top - 2].type != INK_INTEGER) {
currentRoutine->panic = -1;
return;
}
a = currentRoutine->stack[currentRoutine->top - 1];
ary = ink_get_value(ctx, a);
if (ary == NULL) {
currentRoutine->panic = -1;
return;
}
idx = currentRoutine->stack[currentRoutine->top - 2];
value = currentRoutine->stack[currentRoutine->top - 3];
if(ary->top <= idx.value) {
currentRoutine->panic = -1;
return;
}
ink_pop(ctx);
ink_pop(ctx);
ink_pop(ctx);
ary->elements[idx.value] = value;
}
static void get_size_array(struct context* ctx) {
int tid;
struct ink_routine *currentRoutine;
@ -1799,6 +1843,7 @@ int ink_std_library(struct context* ctx) {
v += ink_add_native(ctx, "array.new", new_array);
v += ink_add_native(ctx, "array.push", push_array);
v += ink_add_native(ctx, "array.index", index_array);
v += ink_add_native(ctx, "array.set", set_array);
v += ink_add_native(ctx, "array.size", get_size_array);
v += ink_add_native(ctx, "array.print_utf8", print_array_of_codepoints);
v += ink_add_native(ctx, "stack.to_array", arrayify_stack);

+ 16
- 6
main.c 查看文件

@ -1,15 +1,22 @@
#include "ink.h"
#include <stdio.h>
#include <time.h>
int main(int argc, char** argv) {
char read_buffer[2048];
struct context* ctx = ink_make_default_context();
char** end_argv = argv + argc;
clock_t begin, end;
double time_spent;
struct context* ctx;
char** end_argv;
ctx = ink_make_default_context();
end_argv = argv + argc;
for(argv+=1; argv != end_argv; argv++) {
FILE* file = fopen(*argv, "r");
size_t cnt = fread(read_buffer, 1, 2047, file);
FILE* file;
size_t cnt;
file = fopen(*argv, "r");
cnt = fread(read_buffer, 1, 2047, file);
if(cnt == 0) {
fprintf(stderr, "Can't read file !! -> %s\n", *argv);
}
read_buffer[cnt] = 0;
ink_compile(ctx, read_buffer);
@ -21,10 +28,13 @@ int main(int argc, char** argv) {
fclose(file);
}
begin = clock();
while(ink_can_run(ctx)) {
ink_step_everyone(ctx);
}
ink_gc(ctx);
printf("\nExecuted in %u steps\nCollected %u times\n", ctx->steps, ctx->collections);
end = clock();
time_spent = ctx->steps/((double)(end - begin) / CLOCKS_PER_SEC);
printf("\nExecuted in %u steps\nCollected %u times\nExecution freq: %uHz\n", ctx->steps, ctx->collections, (unsigned int)time_spent);
return ctx->panic;
}

+ 53
- 0
test/test01.nk 查看文件

@ -18,4 +18,57 @@ fn potato3 do
-1 + dup
66 print_utf8 10 print_utf8
start swap jump_if
end
# Encrypts things by doing `(v + add_key) % modulo_key`
#
# @param array An array of ints representing a string
# @param add_key Should be lower than the add key
# @param modulo_key Should ke higher than all the codepoints of the array
#
# array add_key modulo_key
fn encrypt do
3 pluck array.size
# array add_key modulo_key index
loop:
1 - dup 5 pluck
# array add_key modulo_key index index array
array.index
# array add_key modulo_key index v
4 pluck +
# array add_key modulo_key index (v + add_key)
3 pluck %
# array add_key modulo_key index ((v + add_key) % modulo_key)
2 pluck
# array add_key modulo_key index ((v + add_key) % modulo_key) index
6 pluck
# array add_key modulo_key index ((v + add_key) % modulo_key) index array
array.set
# array add_key modulo_key index
dup 0 != loop jump_if drop drop drop drop
end
# Prints a string as an array of ints
#
# @param array An array of ints representing a string
#
# array
fn string.dump do
dup array.size 0
# array end it
91 print_utf8
32 print_utf8
loop:
dup
# array end it it
4 pluck
# array end it it array
array.index print_int
32 print_utf8
1 +
# array end it
2 pluck 2 pluck > loop jump_if
# array end it
93 print_utf8
drop drop drop
end

+ 24
- 0
test/test02.nk 查看文件

@ -1,3 +1,27 @@
fn print_n_utf8 do
print_n_utf8_impl drop
end
# Clones an array, creating a new array
#
# @param array The array to clone into a new array
# @return a new array that contains the same elements as the source array
#
# array -> new_array
fn array.clone do
array.new 2 pluck array.size 0
# array new_array end it
2 pluck 2 pluck == l jump_if
# array new_array end it
loop:
dup 5 pluck
# array new_array end it it array
array.index 4 pluck
# array new_array end it v new_array
array.push
# array new_array end it
1 +
2 pluck 2 pluck > loop jump_if
l: drop drop swap drop
# new_array
end

+ 0
- 9
test/test03.nk 查看文件

@ -1,9 +0,0 @@
4 potato2
fn u do
loop:
65 print_int
loop 1 jump_if
end

+ 0
- 1
test/test04.nk 查看文件

@ -1 +0,0 @@
4 potato3

+ 59
- 1
test/test06.nk 查看文件

@ -1 +1,59 @@
[ 72 101 108 108 111 32 87 111 114 108 100 10 ] array.print_utf8
# This says Hello World
[ 72 101 108 108 111 32 87 111 114 108 100 10 ]
# This prints the array above
array.print_utf8
[ 72 101 108 108 111 32 87 111 114 108 100 10 ]
# original
dup array.clone dup
# original cloned cloned
32 128 encrypt
# original cloned
string.dump
10 print_utf8
string.dump
# We encrypt 6 times in a row
[ 84 104 105 115 32 105 115 32 97 110 32 101 120 97 109 112 108 101 32 111 102 32 116 101 120 116 32 116 111 32 98 101 32 101 110 99 114 121 112 116 101 100 32 116 119 105 99 101 46 ]
dup array.clone
dup
33 128 encrypt
dup
57 128 encrypt
dup
91 128 encrypt
dup
33 128 encrypt
dup
57 128 encrypt
dup
91 128 encrypt
# Print encrypted
dup
10 print_utf8
string.dump
# We decrypt in reverse order with a key that is the modular inverse of the original (adjacent to subtraction)
dup
128 91 - 128 encrypt
dup
128 57 - 128 encrypt
dup
128 33 - 128 encrypt
dup
128 91 - 128 encrypt
dup
128 57 - 128 encrypt
dup
128 33 - 128 encrypt
# Print encrypted then decrypted
10 print_utf8
string.dump
# Print never encrypted
10 print_utf8
string.dump

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