4coder/code/custom/lexer_generator/4coder_lex_gen_main.cpp

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2019-09-04 18:26:51 +00:00
/*
4coder_lex_gen_main.cpp - A generator for language lexers.
*/
// TOP
#if !defined(LANG_NAME_LOWER) || !defined(LANG_NAME_CAMEL)
#error 4coder_lex_get_main.cpp not correctly included.
#endif
#include "4coder_base_types.h"
#include "4coder_table.h"
#include "4coder_token.h"
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#include "pcg_basic.h"
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#include "4coder_base_types.cpp"
#include "4coder_stringf.cpp"
#include "4coder_malloc_allocator.cpp"
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#include "4coder_hash_functions.cpp"
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#include "4coder_table.cpp"
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#include "pcg_basic.c"
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#define LANG_NAME_LOWER_STR stringify(LANG_NAME_LOWER)
#define LANG_NAME_CAMEL_STR stringify(LANG_NAME_CAMEL)
////////////////////////////////
// NOTE(allen): PRIMARY MODEL
struct Token_Kind_Node{
Token_Kind_Node *next;
b32 optimized_in;
String_Const_u8 name;
Token_Base_Kind base_kind;
};
struct Token_Kind_Set{
Token_Kind_Node *first;
Token_Kind_Node *last;
i32 count;
Table_Data_u64 name_to_ptr;
};
struct Keyword{
Keyword *next;
String_Const_u8 name;
String_Const_u8 lexeme;
};
struct Keyword_Set{
Keyword_Set *next;
Keyword *first;
Keyword *last;
i32 count;
b32 has_fallback_token_kind;
String_Const_u8 fallback_name;
Table_Data_u64 name_to_ptr;
Table_Data_u64 lexeme_to_ptr;
String_Const_u8 pretty_name;
};
struct Keyword_Set_List{
Keyword_Set *first;
Keyword_Set *last;
i32 count;
};
struct Keyword_Layout{
u64 seed;
u64 error_score;
u64 max_single_error_score;
f32 iterations_per_lookup;
u64 *hashes;
u64 *contributed_error;
Keyword **slots;
i32 slot_count;
};
typedef i32 Flag_Reset_Rule;
enum{
FlagResetRule_AutoZero,
FlagResetRule_KeepState,
FlagResetRule_COUNT,
};
struct Flag{
Flag *next;
Flag_Reset_Rule reset_rule;
Token_Base_Flag emit_flags;
u16 emit_sub_flags;
b32 optimized_in;
String_Const_u8 base_name;
i32 number;
i32 index;
u32 value;
};
struct Flag_Set{
Flag *first;
Flag *last;
i32 count;
};
typedef i32 Emit_Handler_Kind;
enum{
EmitHandlerKind_Direct,
EmitHandlerKind_Keywords,
EmitHandlerKind_KeywordsDelim,
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};
struct Emit_Handler{
Emit_Handler *next;
Emit_Handler_Kind kind;
Flag *flag_check;
union{
String_Const_u8 token_name;
Keyword_Set *keywords;
};
};
struct Emit_Check{
Emit_Check *next;
String_Const_u8 emit_check;
Flag *flag;
b32 value;
};
struct Emit_Check_List{
Emit_Check *first;
Emit_Check *last;
i32 count;
};
struct Emit_Rule{
Emit_Check_List emit_checks;
Emit_Handler *first;
Emit_Handler *last;
i32 count;
};
typedef i32 Action_Kind;
enum{
ActionKind_SetFlag,
ActionKind_ZeroFlags,
ActionKind_DelimMarkFirst,
ActionKind_DelimMarkOnePastLast,
ActionKind_Consume,
ActionKind_Emit,
};
struct Action{
Action *next;
Action *prev;
Action_Kind kind;
union{
struct{
Flag *flag;
b32 value;
} set_flag;
Emit_Rule *emit_rule;
};
};
struct Action_List{
Action *first;
Action *last;
i32 count;
};
typedef i32 Action_Context;
enum{
ActionContext_Normal,
ActionContext_EndOfFile,
};
typedef i32 Transition_Consume_Rule;
enum{
Transition_Consume,
Transition_NoConsume,
};
global u16 smi_eof = 256;
struct Field_Pin{
Field_Pin *next;
// This represents the set of flags with the particular /flag/ set to /flag/
// exactly half of all flag state possibilities.
Flag *flag;
b32 value;
};
struct Field_Pin_List{
Field_Pin_List *next;
// This set is the intersection of the set represented by each pin.
// A list with nothing in it is _always_ the "full set".
Field_Pin *first;
Field_Pin *last;
i32 count;
};
struct Field_Set{
// This set is the union of the set represented by each list.
Field_Pin_List *first;
Field_Pin_List *last;
i32 count;
};
struct Input_Set{
u16 *inputs;
i32 count;
};
struct Condition_Node{
Condition_Node *next;
Field_Set fields;
Input_Set inputs;
};
struct Condition_Set{
Condition_Node *first;
Condition_Node *last;
i32 count;
};
typedef i32 Transition_Case_Kind;
enum{
TransitionCaseKind_NONE,
// intermediates only
TransitionCaseKind_CharaterArray,
TransitionCaseKind_EOF,
TransitionCaseKind_Fallback,
// actually stored in Transition_Case "kind" field
TransitionCaseKind_DelimMatch,
TransitionCaseKind_DelimMatchFail,
TransitionCaseKind_ConditionSet,
};
struct Transition_Case{
Transition_Case_Kind kind;
union{
Condition_Set condition_set;
};
};
struct Transition{
Transition *next;
Transition *prev;
struct State *parent_state;
Transition_Case condition;
Action_List activation_actions;
struct State *dst_state;
};
struct Transition_List{
Transition *first;
Transition *last;
i32 count;
};
struct Transition_Ptr_Node{
Transition_Ptr_Node *next;
Transition *ptr;
};
struct Transition_Ptr_Set{
Transition_Ptr_Node *first;
Transition_Ptr_Node *last;
i32 count;
};
struct State{
State *next;
Transition_List transitions;
String_Const_u8 pretty_name;
b32 optimized_in;
i32 number;
Transition_Ptr_Set back_references;
Action_List on_entry_actions;
};
struct State_Set{
State *first;
State *last;
i32 count;
};
struct Lexer_Model{
State *root;
Flag_Set flags;
State_Set states;
};
struct Lexer_Primary_Context{
Base_Allocator *allocator;
Arena arena;
Token_Kind_Set tokens;
Keyword_Set_List keywords;
Lexer_Model model;
};
////////////////////////////////
struct Flag_Ptr_Node{
Flag_Ptr_Node *next;
Flag *flag;
};
struct Flag_Bucket{
String_Const_u8 pretty_name;
Flag_Ptr_Node *first;
Flag_Ptr_Node *last;
i32 max_bits;
i32 count;
i32 number_of_variables;
};
typedef i32 Flag_Bind_Property;
enum{
FlagBindProperty_Free,
FlagBindProperty_Bound,
FlagBindProperty_COUNT,
};
struct Flag_Bucket_Set{
Flag_Bucket buckets[FlagBindProperty_COUNT][FlagResetRule_COUNT];
};
struct Partial_Transition{
Partial_Transition *next;
Field_Set fields;
Action_List actions;
State *dst_state;
};
struct Partial_Transition_List{
Partial_Transition *first;
Partial_Transition *last;
i32 count;
};
struct Grouped_Input_Handler{
Grouped_Input_Handler *next;
u8 inputs[256];
i32 input_count;
b8 inputs_used[256];
Partial_Transition_List partial_transitions;
};
struct Grouped_Input_Handler_List{
Grouped_Input_Handler *first;
Grouped_Input_Handler *last;
i32 count;
Grouped_Input_Handler *group_with_biggest_input_set;
};
////////////////////////////////
// NOTE(allen): MODELING SYNTAX HELPERS
struct Operator{
Operator *next;
String_Const_u8 name;
String_Const_u8 op;
};
struct Operator_Set{
Operator *first;
Operator *last;
i32 count;
Table_Data_u64 lexeme_to_ptr;
};
struct Lexer_Helper_Context{
Lexer_Primary_Context primary_ctx;
Table_u64_Data char_to_name;
Token_Base_Kind selected_base_kind;
State *selected_state;
Operator_Set *selected_op_set;
Keyword_Set *selected_key_set;
Emit_Rule *selected_emit_rule;
Transition *selected_transition;
// convenience pointer to primary's arena.
Arena *arena;
};
struct Character_Set{
Table_u64_u64 table;
};
#include "4coder_lex_gen_hand_written.h"
#include "4coder_lex_gen_hand_written.cpp"
////////////////////////////////
////////////////////////////////
////////////////////////////////
////////////////////////////////
// NOTE(allen): INTERNAL CONSTRUCTORS
internal void
smi_primary_init(Base_Allocator *allocator, Lexer_Primary_Context *ctx){
ctx->allocator = allocator;
ctx->arena = make_arena(allocator);
ctx->model.root = 0;
ctx->tokens.name_to_ptr = make_table_Data_u64(allocator, 400);
}
internal b32
smi_try_add_token(Lexer_Primary_Context *ctx, String_Const_u8 name, Token_Base_Kind base_kind){
b32 result = false;
Token_Kind_Set *set = &ctx->tokens;
Table_Lookup lookup = table_lookup(&set->name_to_ptr, make_data(name.str, name.size));
if (!lookup.found_match){
Token_Kind_Node *node = push_array_zero(&ctx->arena, Token_Kind_Node, 1);
node->name = push_string_copy(&ctx->arena, name);
node->base_kind = base_kind;
table_insert(&set->name_to_ptr, make_data(node->name.str, node->name.size), (u64)PtrAsInt(node));
sll_queue_push(set->first, set->last, node);
set->count += 1;
result = true;
}
return(result);
}
internal b32
smi_key(Lexer_Primary_Context *ctx, Keyword_Set *set, String_Const_u8 name, String_Const_u8 lexeme, Token_Base_Kind base_kind){
b32 result = false;
Table_Lookup lookup = table_lookup(&set->name_to_ptr, make_data(name.str, name.size));
if (!lookup.found_match){
lookup = table_lookup(&set->lexeme_to_ptr, make_data(lexeme.str, lexeme.size));
if (!lookup.found_match){
if (smi_try_add_token(ctx, name, base_kind)){
Keyword *key = push_array_zero(&ctx->arena, Keyword, 1);
key->name = push_string_copy(&ctx->arena, name);
key->lexeme = push_string_copy(&ctx->arena, lexeme);
table_insert(&set->name_to_ptr, make_data(key->name.str, key->name.size), (u64)PtrAsInt(key));
table_insert(&set->lexeme_to_ptr, make_data(key->lexeme.str, key->lexeme.size), (u64)PtrAsInt(key));
sll_queue_push(set->first, set->last, key);
set->count += 1;
result = true;
}
}
}
return(result);
}
internal b32
smi_key_fallback(Lexer_Primary_Context *ctx, Keyword_Set *set, String_Const_u8 name, Token_Base_Kind base_kind){
b32 result = false;
if (!set->has_fallback_token_kind){
if (smi_try_add_token(ctx, name, base_kind)){
set->has_fallback_token_kind = true;
set->fallback_name = push_string_copy(&ctx->arena, name);
result = true;
}
}
return(result);
}
internal State*
smi_add_state(Lexer_Primary_Context *ctx, String_Const_u8 pretty_name){
State_Set *set = &ctx->model.states;
State *state = push_array_zero(&ctx->arena, State, 1);
sll_queue_push(set->first, set->last, state);
set->count += 1;
state->pretty_name = push_string_copy(&ctx->arena, pretty_name);
return(state);
}
internal Flag*
smi_add_flag(Lexer_Primary_Context *ctx, Flag_Reset_Rule rule){
Flag_Set *set = &ctx->model.flags;
Flag *flag = push_array_zero(&ctx->arena, Flag, 1);
flag->reset_rule = rule;
sll_queue_push(set->first, set->last, flag);
set->count += 1;
return(flag);
}
internal Emit_Rule*
smi_emit_rule(Arena *arena){
return(push_array_zero(arena, Emit_Rule, 1));
}
internal Emit_Handler*
smi_emit_handler__inner(Arena *arena, Emit_Rule *rule, Emit_Handler_Kind kind, Flag *flag_check){
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Emit_Handler *handler = push_array_zero(arena, Emit_Handler, 1);
handler->kind = kind;
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handler->flag_check = flag_check;
if (rule != 0){
sll_queue_push(rule->first, rule->last, handler);
rule->count += 1;
}
return(handler);
}
internal Emit_Handler*
smi_emit_handler(Arena *arena, Emit_Rule *rule, String_Const_u8 name, Flag *flag_check){
Emit_Handler *handler = smi_emit_handler__inner(arena, rule, EmitHandlerKind_Direct, flag_check);
handler->token_name = name;
return(handler);
}
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internal Emit_Handler*
smi_emit_handler(Arena *arena, Emit_Rule *rule, Keyword_Set *set, Flag *flag_check){
Emit_Handler *handler = smi_emit_handler__inner(arena, rule, EmitHandlerKind_Keywords, flag_check);
handler->keywords = set;
return(handler);
}
internal Emit_Handler*
smi_emit_handler_delim(Arena *arena, Emit_Rule *rule, Keyword_Set *set, Flag *flag_check){
Emit_Handler *handler = smi_emit_handler__inner(arena, rule, EmitHandlerKind_KeywordsDelim, flag_check);
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handler->keywords = set;
return(handler);
}
internal void
smi_append_set_flag(Arena *arena, Action_List *list, Flag *flag, b32 value){
Action *action = push_array_zero(arena, Action, 1);
zdll_push_back(list->first, list->last, action);
list->count += 1;
action->kind = ActionKind_SetFlag;
action->set_flag.flag = flag;
action->set_flag.value = value;
}
internal void
smi_append_zero_flags(Arena *arena, Action_List *list){
Action *action = push_array_zero(arena, Action, 1);
zdll_push_back(list->first, list->last, action);
list->count += 1;
action->kind = ActionKind_ZeroFlags;
}
internal void
smi_append_delim_mark_first(Arena *arena, Action_List *list){
Action *action = push_array_zero(arena, Action, 1);
zdll_push_back(list->first, list->last, action);
list->count += 1;
action->kind = ActionKind_DelimMarkFirst;
}
internal void
smi_append_delim_mark_one_past_last(Arena *arena, Action_List *list){
Action *action = push_array_zero(arena, Action, 1);
zdll_push_back(list->first, list->last, action);
list->count += 1;
action->kind = ActionKind_DelimMarkOnePastLast;
}
internal void
smi_append_consume(Arena *arena, Action_List *list){
Action *action = push_array_zero(arena, Action, 1);
zdll_push_back(list->first, list->last, action);
list->count += 1;
action->kind = ActionKind_Consume;
}
internal void
smi_append_emit(Arena *arena, Action_List *list, Emit_Rule *emit){
Action *action = push_array_zero(arena, Action, 1);
zdll_push_back(list->first, list->last, action);
list->count += 1;
action->kind = ActionKind_Emit;
action->emit_rule = emit;
}
////////////////////////////////
#if 0
internal void
CHECK_PIN_LIST(Field_Pin_List *list){
i32 counter = 0;
for (Field_Pin *pin = list->first;
pin != 0;
pin = pin->next){
counter += 1;
}
Assert(counter == list->count);
}
#else
#define CHECK_PIN_LIST(x)
#endif
internal Field_Pin*
smi_field_pin_copy(Arena *arena, Field_Pin *pin){
Field_Pin *result = push_array_zero(arena, Field_Pin, 1);
result->flag = pin->flag;
result->value = pin->value;
return(result);
}
internal Field_Pin_List*
smi_field_pin_list_copy(Arena *arena, Field_Pin_List list){
CHECK_PIN_LIST(&list);
Field_Pin_List *new_list = push_array_zero(arena, Field_Pin_List, 1);
new_list->count = list.count;
for (Field_Pin *node = list.first;
node != 0;
node = node->next){
Field_Pin *new_pin = smi_field_pin_copy(arena, node);
sll_queue_push(new_list->first, new_list->last, new_pin);
}
CHECK_PIN_LIST(new_list);
return(new_list);
}
internal Field_Set
smi_field_set_copy(Arena *arena, Field_Set set){
Field_Set result = {};
result.count = set.count;
for (Field_Pin_List *pin_list = set.first;
pin_list != 0;
pin_list = pin_list->next){
Field_Pin_List *new_list = smi_field_pin_list_copy(arena, *pin_list);
sll_queue_push(result.first, result.last, new_list);
}
return(result);
}
internal void
smi_field_pin_sub__recursive(Arena *arena, Field_Pin_List a, Field_Pin_List *list, Field_Pin_List growing_list, Field_Set *result){
if (list != 0){
growing_list.count += 1;
Field_Pin_List *next_list = list->next;
for (Field_Pin *pin = list->first;
pin != 0;
pin = pin->next){
Field_Pin local_pin = *pin;
local_pin.next = 0;
sll_queue_push(growing_list.first, growing_list.last, &local_pin);
smi_field_pin_sub__recursive(arena, a, next_list, growing_list, result);
}
}
else{
b32 has_conflicts = false;
Temp_Memory restore_point = begin_temp(arena);
Field_Pin_List *new_list = smi_field_pin_list_copy(arena, a);
for (Field_Pin *pin = growing_list.first;
pin != 0;
pin = pin->next){
b32 is_duplicate = false;
for (Field_Pin *a_pin = new_list->first;
a_pin != 0;
a_pin = a_pin->next){
if (pin->flag == a_pin->flag){
if (pin->value == a_pin->value){
end_temp(restore_point);
has_conflicts = true;
goto double_break;
}
is_duplicate = true;
break;
}
}
if (!is_duplicate){
Field_Pin *new_pin = smi_field_pin_copy(arena, pin);
new_pin->value = !new_pin->value;
sll_queue_push(new_list->first, new_list->last, new_pin);
new_list->count += 1;
}
}
double_break:;
if (!has_conflicts){
CHECK_PIN_LIST(new_list);
sll_queue_push(result->first, result->last, new_list);
result->count += 1;
}
}
}
internal Field_Set
smi_field_pin_sub(Arena *arena, Field_Pin_List a, Field_Set b){
Field_Set result = {};
Field_Pin_List *list = b.first;
Field_Pin_List growing_list = {};
smi_field_pin_sub__recursive(arena, a, list, growing_list, &result);
return(result);
}
internal Field_Set
smi_field_set_subtract(Arena *arena, Field_Set a, Field_Set b){
Field_Set result = {};
for (Field_Pin_List *list = a.first;
list != 0;
list = list->next){
Field_Set partial = smi_field_pin_sub(arena, *list, b);
if (result.first == 0){
result = partial;
}
else{
if (partial.first != 0){
result.last->next = partial.first;
result.last = partial.last;
result.count += partial.count;
}
}
}
return(result);
}
internal Field_Set
smi_field_set_intersect(Arena *arena, Field_Set a, Field_Set b){
Field_Set result = {};
for (Field_Pin_List *a_list = a.first;
a_list != 0;
a_list = a_list->next){
for (Field_Pin_List *b_list = b.first;
b_list != 0;
b_list = b_list->next){
b32 has_conflicts = false;
Temp_Memory restore_point = begin_temp(arena);
Field_Pin_List *new_list = smi_field_pin_list_copy(arena, *a_list);
for (Field_Pin *b_pin = b_list->first;
b_pin != 0;
b_pin = b_pin->next){
b32 is_duplicate = false;
for (Field_Pin *pin = new_list->first;
pin != 0;
pin = pin->next){
if (pin->flag == pin->flag){
if (pin->value != pin->value){
end_temp(restore_point);
has_conflicts = true;
goto double_break;
}
is_duplicate = true;
break;
}
}
if (!is_duplicate){
Field_Pin *new_pin = smi_field_pin_copy(arena, b_pin);
sll_queue_push(new_list->first, new_list->last, new_pin);
new_list->count += 1;
}
}
double_break:;
if (!has_conflicts){
sll_queue_push(result.first, result.last, new_list);
result.count += 1;
}
}
}
return(result);
}
internal b32
smi_field_set_match(Arena *scratch, Field_Set a, Field_Set b){
Temp_Memory temp = begin_temp(scratch);
b32 result = false;
Field_Set sub = smi_field_set_subtract(scratch, a, b);
if (sub.count == 0){
sub = smi_field_set_subtract(scratch, b, a);
if (sub.count == 0){
result = true;
}
}
end_temp(temp);
return(result);
}
internal Field_Set
smi_field_set_union(Arena *arena, Field_Set a, Field_Set b){
Field_Set result = {};
if (a.first != 0){
if (b.first != 0){
a = smi_field_set_copy(arena, a);
// TODO(allen): simplify these lists by seeing if they union
// cleanly with the lists in a!
b = smi_field_set_copy(arena, b);
result.first = a.first;
a.last->next = b.first;
result.last = b.last;
result.count = a.count + b.count;
}
else{
result = smi_field_set_copy(arena, a);
}
}
else{
if (b.first != 0){
result = smi_field_set_copy(arena, b);
}
}
return(result);
}
internal Field_Set
smi_field_set_construct(Arena *arena){
Field_Set result = {};
Field_Pin_List *list = push_array_zero(arena, Field_Pin_List, 1);
sll_queue_push(result.first, result.last, list);
result.count += 1;
return(result);
}
internal Field_Set
smi_field_set_construct(Arena *arena, Flag *flag, b32 value){
Field_Set result = {};
if (flag != 0){
Field_Pin_List *list = push_array_zero(arena, Field_Pin_List, 1);
sll_queue_push(result.first, result.last, list);
result.count += 1;
Field_Pin *pin = push_array_zero(arena, Field_Pin, 1);
sll_queue_push(list->first, list->last, pin);
list->count += 1;
pin->flag = flag;
pin->value = value;
}
else{
result = smi_field_set_construct(arena);
}
return(result);
}
internal Input_Set
smi_input_set_copy(Arena *arena, Input_Set set){
Input_Set result = {};
result.inputs = push_array_write(arena, u16, set.count, set.inputs);
result.count = set.count;
return(result);
}
internal Input_Set
smi_input_set_subtract(Arena *arena, Input_Set a, Input_Set b){
Input_Set result = {};
if (a.count > 0){
Temp_Memory restore_point = begin_temp(arena);
result = smi_input_set_copy(arena, a);
for (i32 i = 0; i < result.count; i += 1){
b32 is_subtracted = false;
for (i32 j = 0; j < b.count; j += 1){
if (result.inputs[i] == b.inputs[j]){
is_subtracted = true;
break;
}
}
if (is_subtracted){
result.count -= 1;
result.inputs[i] = result.inputs[result.count];
i -= 1;
}
}
if (a.count == 0){
end_temp(restore_point);
block_zero_struct(&result);
}
}
return(result);
}
internal Input_Set
smi_input_set_intersect(Arena *arena, Input_Set a, Input_Set b){
Input_Set result = {};
if (a.count > 0 && b.count > 0){
Temp_Memory restore_point = begin_temp(arena);
result = smi_input_set_copy(arena, a);
for (i32 i = 0; i < result.count; i += 1){
b32 is_shared = false;
for (i32 j = 0; j < b.count; j += 1){
if (result.inputs[i] == b.inputs[j]){
is_shared = true;
break;
}
}
if (!is_shared){
result.count -= 1;
result.inputs[i] = result.inputs[result.count];
i -= 1;
}
}
if (result.count == 0){
end_temp(restore_point);
block_zero_struct(&result);
}
}
return(result);
}
internal Input_Set
smi_input_set_union(Arena *arena, Input_Set a, Input_Set b){
Input_Set result = {};
if (a.count > 0 || b.count > 0){
result.inputs = push_array_zero(arena, u16, a.count + b.count);
block_copy_dynamic_array(result.inputs, a.inputs, a.count);
result.count = a.count;
for (i32 i = 0; i < b.count; i += 1){
b32 is_duplicate = false;
for (i32 j = 0; j < result.count; j += 1){
if (result.inputs[j] == b.inputs[i]){
is_duplicate = true;
break;
}
}
if (!is_duplicate){
result.inputs[result.count] = b.inputs[i];
result.count += 1;
}
}
}
return(result);
}
internal Input_Set
smi_input_set_construct(Arena *arena, String_Const_u8 characters){
Input_Set result = {};
result.count = (i32)characters.size;
result.inputs = push_array_zero(arena, u16, result.count);
for (u64 i = 0; i < characters.size; i += 1){
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result.inputs[i] = (u16)characters.str[i];
}
return(result);
}
internal Input_Set
smi_input_set_construct_eof(Arena *arena){
Input_Set result = {};
result.count = 1;
result.inputs = push_array_zero(arena, u16, result.count);
result.inputs[0] = smi_eof;
return(result);
}
internal Input_Set
smi_input_set_construct_fallback(Arena *arena){
Input_Set result = {};
result.count = 257;
result.inputs = push_array_zero(arena, u16, result.count);
for (u16 i = 0; i < 257; i += 1){
result.inputs[i] = i;
}
return(result);
}
internal Condition_Node*
smi_condition_node_copy(Arena *arena, Condition_Node *node){
Condition_Node *result = push_array_zero(arena, Condition_Node, 1);
result->fields = smi_field_set_copy(arena, node->fields);
result->inputs = smi_input_set_copy(arena, node->inputs);
return(result);
}
internal Condition_Set
smi_condition_set_copy(Arena *arena, Condition_Set set){
Condition_Set result = {};
for (Condition_Node *node = set.first;
node != 0;
node = node->next){
Condition_Node *new_node = smi_condition_node_copy(arena, node);
sll_queue_push(result.first, result.last, new_node);
result.count += 1;
}
return(result);
}
internal Condition_Set
smi_condition_node_sub(Arena *arena, Condition_Node a, Condition_Node b){
Condition_Set result = {};
Input_Set a_minus_b_input = smi_input_set_subtract(arena, a.inputs, b.inputs);
if (a_minus_b_input.count == 0){
Field_Set a_minus_b_fields = smi_field_set_subtract(arena, a.fields, b.fields);
if (a_minus_b_fields.count > 0){
Condition_Node *new_node = push_array_zero(arena, Condition_Node, 1);
new_node->inputs = smi_input_set_copy(arena, a.inputs);
new_node->fields = a_minus_b_fields;
sll_queue_push(result.first, result.last, new_node);
result.count += 1;
}
}
else{
if (a_minus_b_input.count == a.inputs.count){
Condition_Node *new_node = push_array_zero(arena, Condition_Node, 1);
new_node->inputs = a_minus_b_input;
new_node->fields = smi_field_set_copy(arena, a.fields);
sll_queue_push(result.first, result.last, new_node);
result.count += 1;
}
else{
Field_Set a_minus_b_fields = smi_field_set_subtract(arena, a.fields, b.fields);
if (a_minus_b_fields.count == 0){
Condition_Node *new_node = push_array_zero(arena, Condition_Node, 1);
new_node->inputs = a_minus_b_input;
new_node->fields = smi_field_set_copy(arena, a.fields);
sll_queue_push(result.first, result.last, new_node);
result.count += 1;
}
else{
Input_Set a_int_b_input = smi_input_set_intersect(arena, a.inputs, b.inputs);
Condition_Node *node_1 = push_array_zero(arena, Condition_Node, 1);
node_1->inputs = a_int_b_input;
node_1->fields = a_minus_b_fields;
sll_queue_push(result.first, result.last, node_1);
Condition_Node *node_2 = push_array_zero(arena, Condition_Node, 1);
node_2->inputs = a_minus_b_input;
node_2->fields = smi_field_set_copy(arena, a.fields);
sll_queue_push(result.first, result.last, node_2);
result.count += 2;
}
}
}
return(result);
}
internal Condition_Node*
smi_condition_node_int(Arena *arena, Condition_Node a, Condition_Node b){
Condition_Node *result = push_array_zero(arena, Condition_Node, 1);
result->inputs = smi_input_set_intersect(arena, a.inputs, b.inputs);
result->fields = smi_field_set_intersect(arena, a.fields, b.fields);
return(result);
}
internal Condition_Set
smi_condition_set_subtract_node(Arena *arena, Condition_Set a, Condition_Node *b){
Condition_Set result = {};
for (Condition_Node *node = a.first;
node != 0;
node = node->next){
Condition_Set partial = smi_condition_node_sub(arena, *node, *b);
if (result.first == 0){
result = partial;
}
else{
if (partial.first != 0){
result.last->next = partial.first;
result.last = partial.last;
result.count += partial.count;
}
}
}
return(result);
}
internal Condition_Set
smi_condition_set_subtract(Arena *arena, Condition_Set a, Condition_Set b){
Condition_Set result = a;
for (Condition_Node *node = b.first;
node != 0;
node = node->next){
result = smi_condition_set_subtract_node(arena, result, node);
}
return(result);
}
internal Condition_Set
smi_condition_set_intersect(Arena *arena, Condition_Set a, Condition_Set b){
Condition_Set result = {};
for (Condition_Node *a_node = a.first;
a_node != 0;
a_node = a_node->next){
for (Condition_Node *b_node = b.first;
b_node != 0;
b_node = b_node->next){
Condition_Node *node = smi_condition_node_int(arena, *a_node, *b_node);
if (node->inputs.count > 0 && node->fields.count > 0){
sll_queue_push(result.first, result.last, node);
result.count += 1;
}
}
}
return(result);
}
internal Condition_Set
smi_condition_set_union(Arena *arena, Condition_Set a, Condition_Set b){
Condition_Set result = {};
if (a.count != 0){
if (b.count != 0){
a = smi_condition_set_copy(arena, a);
// TODO(allen): simplify these down!
b = smi_condition_set_copy(arena, b);
result.first = a.first;
a.last->next = b.first;
result.last = b.last;
result.count = a.count + b.count;
}
else{
result = smi_condition_set_copy(arena, a);
}
}
else{
if (b.count != 0){
result = smi_condition_set_copy(arena, b);
}
}
return(result);
}
internal Condition_Node*
smi_condition_node(Arena *arena, Input_Set inputs, Field_Set fields){
Condition_Node *node = push_array_zero(arena, Condition_Node, 1);
node->fields = fields;
node->inputs = inputs;
return(node);
}
internal Condition_Set
smi_condition(Arena *arena, Input_Set inputs, Field_Set fields){
Condition_Set result = {};
Condition_Node *node = smi_condition_node(arena, inputs, fields);
sll_queue_push(result.first, result.last, node);
result.count += 1;
return(result);
}
////////////////////////////////
internal Transition*
smi_case(Lexer_Primary_Context *ctx, State *state,
Transition_Case_Kind kind, String_Const_u8 characters, Flag *flag_check,b32 flag_check_value,
State *dst, Transition_Consume_Rule consume_rule, Emit_Rule *emit){
Transition *transition = push_array_zero(&ctx->arena, Transition, 1);
transition->parent_state = state;
switch (kind){
default:
{
transition->condition.kind = kind;
}break;
case TransitionCaseKind_CharaterArray:
{
transition->condition.kind = TransitionCaseKind_ConditionSet;
Input_Set inputs = smi_input_set_construct(&ctx->arena, characters);
Field_Set fields = smi_field_set_construct(&ctx->arena,
flag_check, flag_check_value);
transition->condition.condition_set = smi_condition(&ctx->arena, inputs, fields);
}break;
case TransitionCaseKind_EOF:
{
transition->condition.kind = TransitionCaseKind_ConditionSet;
Input_Set inputs = smi_input_set_construct_eof(&ctx->arena);
Field_Set fields = smi_field_set_construct(&ctx->arena,
flag_check, flag_check_value);
transition->condition.condition_set = smi_condition(&ctx->arena, inputs, fields);
}break;
case TransitionCaseKind_Fallback:
{
transition->condition.kind = TransitionCaseKind_ConditionSet;
Input_Set inputs = smi_input_set_construct_fallback(&ctx->arena);
Field_Set fields = smi_field_set_construct(&ctx->arena,
flag_check, flag_check_value);
transition->condition.condition_set = smi_condition(&ctx->arena, inputs, fields);
}break;
}
transition->dst_state = dst;
if (consume_rule == Transition_Consume){
smi_append_consume(&ctx->arena, &transition->activation_actions);
}
if (emit != 0){
smi_append_emit(&ctx->arena, &transition->activation_actions, emit);
}
zdll_push_back(state->transitions.first, state->transitions.last, transition);
state->transitions.count += 1;
return(transition);
}
////////////////////////////////
// NOTE(allen): CONSTRUCTORS
global Lexer_Helper_Context helper_ctx = {};
internal void
sm_helper_init(Base_Allocator *allocator){
smi_primary_init(allocator, &helper_ctx.primary_ctx);
helper_ctx.char_to_name = make_table_u64_Data(allocator, 100);
helper_ctx.arena = &helper_ctx.primary_ctx.arena;
}
internal void
sm_char_name(u8 c, char *str){
Table_Lookup lookup = table_lookup(&helper_ctx.char_to_name, c);
if (lookup.found_match){
table_erase(&helper_ctx.char_to_name, lookup);
}
String_Const_u8 string = push_string_copy(helper_ctx.arena, SCu8(str));
table_insert(&helper_ctx.char_to_name, c, make_data(string.str, string.size));
}
internal void
sm_select_base_kind(Token_Base_Kind kind){
helper_ctx.selected_base_kind = kind;
}
internal void
sm_select_state(State *state){
helper_ctx.selected_state = state;
}
internal void
sm_select_op_set(Operator_Set *set){
helper_ctx.selected_op_set = set;
}
internal void
sm_select_key_set(Keyword_Set *set){
helper_ctx.selected_key_set = set;
}
internal void
sm_select_emit(Emit_Rule *emit){
helper_ctx.selected_emit_rule = emit;
}
internal void
sm_select_transition(Transition *transition){
helper_ctx.selected_transition = transition;
}
internal b32
sm_direct_token_kind(char *str){
return(smi_try_add_token(&helper_ctx.primary_ctx, SCu8(str), helper_ctx.selected_base_kind));
}
internal Operator_Set*
sm_begin_op_set(void){
Operator_Set *set = push_array_zero(helper_ctx.arena, Operator_Set, 1);
set->lexeme_to_ptr = make_table_Data_u64(helper_ctx.primary_ctx.allocator, 100);
helper_ctx.selected_op_set = set;
return(set);
}
internal b32
sm_op(String_Const_u8 lexeme, String_Const_u8 name){
b32 result = false;
Operator_Set *set = helper_ctx.selected_op_set;
Table_Lookup lookup = table_lookup(&set->lexeme_to_ptr, make_data(lexeme.str, lexeme.size));
if (!lookup.found_match){
if (smi_try_add_token(&helper_ctx.primary_ctx, name, helper_ctx.selected_base_kind)){
Operator *op = push_array_zero(helper_ctx.arena, Operator, 1);
op->name = push_string_copy(helper_ctx.arena, name);
op->op = push_string_copy(helper_ctx.arena, lexeme);
table_insert(&set->lexeme_to_ptr, make_data(op->op.str, op->op.size), (u64)PtrAsInt(op));
sll_queue_push(set->first, set->last, op);
set->count += 1;
result = true;
}
}
return(result);
}
internal b32
sm_op(char *lexeme, char *name){
return(sm_op(SCu8(lexeme), SCu8(name)));
}
internal b32
sm_op(char *lexeme){
String_Const_u8 l = SCu8(lexeme);
List_String_Const_u8 name_list = {};
for (u64 i = 0; i < l.size; i += 1){
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Table_Lookup lookup = table_lookup(&helper_ctx.char_to_name, l.str[i]);
// If this fails first check that all the characters in the lexeme are named!
Assert(lookup.found_match);
String_Const_u8 name_data = {};
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table_read(&helper_ctx.char_to_name, lookup, &name_data);
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string_list_push(helper_ctx.arena, &name_list, SCu8(name_data.str, name_data.size));
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}
String_Const_u8 name = string_list_flatten(helper_ctx.arena, name_list);
return(sm_op(l, name));
}
internal Keyword_Set*
sm_begin_key_set(String_Const_u8 pretty_name){
Keyword_Set *set = push_array_zero(helper_ctx.arena, Keyword_Set, 1);
set->name_to_ptr = make_table_Data_u64(helper_ctx.primary_ctx.allocator, 100);
set->lexeme_to_ptr = make_table_Data_u64(helper_ctx.primary_ctx.allocator, 100);
set->pretty_name = push_string_copy(helper_ctx.arena, pretty_name);
sll_queue_push(helper_ctx.primary_ctx.keywords.first,
helper_ctx.primary_ctx.keywords.last, set);
helper_ctx.primary_ctx.keywords.count += 1;
helper_ctx.selected_key_set = set;
return(set);
}
internal Keyword_Set*
sm_begin_key_set(char *pretty_name){
return(sm_begin_key_set(SCu8(pretty_name)));
}
internal b32
sm_key(String_Const_u8 name, String_Const_u8 lexeme){
return(smi_key(&helper_ctx.primary_ctx, helper_ctx.selected_key_set, name, lexeme, helper_ctx.selected_base_kind));
}
internal b32
sm_key(char *str, char *lexeme){
return(sm_key(SCu8(str), SCu8(lexeme)));
}
internal b32
sm_key(char *str){
String_Const_u8 name = SCu8(str);
String_Const_u8 lexeme = push_string_copy(helper_ctx.arena, name);
lexeme = string_mod_lower(lexeme);
return(sm_key(name, lexeme));
}
internal b32
sm_key_fallback(String_Const_u8 name){
return(smi_key_fallback(&helper_ctx.primary_ctx, helper_ctx.selected_key_set, name, helper_ctx.selected_base_kind));
}
internal b32
sm_key_fallback(char *str){
return(sm_key_fallback(SCu8(str)));
}
internal State*
sm_add_state(String_Const_u8 pretty_name){
return(smi_add_state(&helper_ctx.primary_ctx, pretty_name));
}
internal State*
sm_add_state(char *pretty_name){
return(smi_add_state(&helper_ctx.primary_ctx, SCu8(pretty_name)));
}
internal State*
sm_begin_state_machine(void){
State *state = sm_add_state("root");
// If this fails first check sm_begin_state_machine is only called once
Assert(helper_ctx.primary_ctx.model.root == 0);
helper_ctx.primary_ctx.model.root = state;
return(state);
}
internal Flag*
sm_add_flag(Flag_Reset_Rule rule){
return(smi_add_flag(&helper_ctx.primary_ctx, rule));
}
internal void
sm_flag_bind(Flag *flag, Token_Base_Kind emit_flags){
flag->emit_flags = emit_flags;
}
internal void
sm_sub_flag_bind(Flag *flag, u16 emit_sub_flags){
flag->emit_sub_flags = emit_sub_flags;
}
internal Emit_Rule*
sm_emit_rule(void){
Emit_Rule *rule = smi_emit_rule(helper_ctx.arena);
helper_ctx.selected_emit_rule = rule;
return(rule);
}
internal void
sm_emit_handler_direct(Flag *flag_check, String_Const_u8 name){
Emit_Rule *rule = helper_ctx.selected_emit_rule;
smi_emit_handler(helper_ctx.arena, rule, name, flag_check);
}
internal void
sm_emit_handler_direct(char *name){
sm_emit_handler_direct(0, SCu8(name));
}
internal void
sm_emit_handler_direct(Flag *flag_check, char *name){
sm_emit_handler_direct(flag_check, SCu8(name));
}
internal void
sm_emit_handler_keys(Flag *flag_check, Keyword_Set *set){
Emit_Rule *rule = helper_ctx.selected_emit_rule;
smi_emit_handler(helper_ctx.arena, rule, set, flag_check);
}
internal void
sm_emit_handler_keys(Keyword_Set *set){
sm_emit_handler_keys(0, set);
}
internal void
sm_emit_handler_keys_delim(Flag *flag_check, Keyword_Set *set){
Emit_Rule *rule = helper_ctx.selected_emit_rule;
smi_emit_handler_delim(helper_ctx.arena, rule, set, flag_check);
}
internal void
sm_emit_handler_keys_delim(Keyword_Set *set){
sm_emit_handler_keys_delim(0, set);
}
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internal Transition*
sm_case(String_Const_u8 str, Flag *flag_check, b32 flag_check_value, State *dst, Transition_Consume_Rule consume_rule, Emit_Rule *emit){
Transition *transition = smi_case(&helper_ctx.primary_ctx, helper_ctx.selected_state, TransitionCaseKind_CharaterArray, str,
flag_check, flag_check_value, dst, consume_rule, emit);
helper_ctx.selected_transition = transition;
return(transition);
}
internal Transition*
sm_case(Transition_Case_Kind kind, Flag *flag_check, b32 flag_check_value, State *dst, Transition_Consume_Rule consume_rule, Emit_Rule *emit){
Assert(kind != TransitionCaseKind_CharaterArray);
String_Const_u8 str = {};
Transition *transition = smi_case(&helper_ctx.primary_ctx, helper_ctx.selected_state, kind, str,
flag_check, flag_check_value, dst, consume_rule, emit);
helper_ctx.selected_transition = transition;
return(transition);
}
internal Transition*
sm_case(char *str, State *dst){
return(sm_case(SCu8(str), 0, 0, dst, Transition_Consume, 0));
}
internal Transition*
sm_case(u8 *str, State *dst){
return(sm_case(SCu8(str), 0, 0, dst, Transition_Consume, 0));
}
internal Transition*
sm_case_peek(char *str, State *dst){
return(sm_case(SCu8(str), 0, 0, dst, Transition_NoConsume, 0));
}
internal Transition*
sm_case_peek(u8 *str, State *dst){
return(sm_case(SCu8(str), 0, 0, dst, Transition_NoConsume, 0));
}
internal Transition*
sm_case_flagged(Flag *flag_check, b32 flag_check_value, char *str, State *dst){
return(sm_case(SCu8(str), flag_check, flag_check_value, dst, Transition_Consume, 0));
}
internal Transition*
sm_case_flagged(Flag *flag_check, b32 flag_check_value, u8 *str, State *dst){
return(sm_case(SCu8(str), flag_check, flag_check_value, dst, Transition_Consume, 0));
}
internal Transition*
sm_case_peek_flagged(Flag *flag_check, b32 flag_check_value, char *str, State *dst){
return(sm_case(SCu8(str), flag_check, flag_check_value, dst, Transition_NoConsume, 0));
}
internal Transition*
sm_case_peek_flagged(Flag *flag_check, b32 flag_check_value, u8 *str, State *dst){
return(sm_case(SCu8(str), flag_check, flag_check_value, dst, Transition_NoConsume, 0));
}
internal Transition*
sm_case(char *str, Emit_Rule *emit){
return(sm_case(SCu8(str), 0, 0, helper_ctx.primary_ctx.model.root, Transition_Consume, emit));
}
internal Transition*
sm_case(u8 *str, Emit_Rule *emit){
return(sm_case(SCu8(str), 0, 0, helper_ctx.primary_ctx.model.root, Transition_Consume, emit));
}
internal Transition*
sm_case_peek(char *str, Emit_Rule *emit){
return(sm_case(SCu8(str), 0, 0, helper_ctx.primary_ctx.model.root, Transition_NoConsume, emit));
}
internal Transition*
sm_case_peek(u8 *str, Emit_Rule *emit){
return(sm_case(SCu8(str), 0, 0, helper_ctx.primary_ctx.model.root, Transition_NoConsume, emit));
}
internal Transition*
sm_case_flagged(Flag *flag_check, b32 flag_check_value, char *str, Emit_Rule *emit){
return(sm_case(SCu8(str), flag_check, flag_check_value, helper_ctx.primary_ctx.model.root, Transition_Consume, emit));
}
internal Transition*
sm_case_flagged(Flag *flag_check, b32 flag_check_value, u8 *str, Emit_Rule *emit){
return(sm_case(SCu8(str), flag_check, flag_check_value, helper_ctx.primary_ctx.model.root, Transition_Consume, emit));
}
internal Transition*
sm_case_peek_flagged(Flag *flag_check, b32 flag_check_value, char *str, Emit_Rule *emit){
return(sm_case(SCu8(str), flag_check, flag_check_value, helper_ctx.primary_ctx.model.root, Transition_NoConsume, emit));
}
internal Transition*
sm_case_peek_flagged(Flag *flag_check, b32 flag_check_value, u8 *str, Emit_Rule *emit){
return(sm_case(SCu8(str), flag_check, flag_check_value, helper_ctx.primary_ctx.model.root, Transition_NoConsume, emit));
}
internal Transition*
sm_case_eof(State *dst){
return(sm_case(TransitionCaseKind_EOF, 0, 0, dst, Transition_Consume, 0));
}
internal Transition*
sm_case_eof_peek(State *dst){
return(sm_case(TransitionCaseKind_EOF, 0, 0, dst, Transition_NoConsume, 0));
}
internal Transition*
sm_case_eof_flagged(Flag *flag_check, b32 flag_check_value, State *dst){
return(sm_case(TransitionCaseKind_EOF, flag_check, flag_check_value, dst, Transition_Consume, 0));
}
internal Transition*
sm_case_eof_peek_flagged(Flag *flag_check, b32 flag_check_value, State *dst){
return(sm_case(TransitionCaseKind_EOF, flag_check, flag_check_value, dst, Transition_NoConsume, 0));
}
internal Transition*
sm_case_eof(Emit_Rule *emit){
return(sm_case(TransitionCaseKind_EOF, 0, 0, helper_ctx.primary_ctx.model.root, Transition_Consume, emit));
}
internal Transition*
sm_case_eof_peek(Emit_Rule *emit){
return(sm_case(TransitionCaseKind_EOF, 0, 0, helper_ctx.primary_ctx.model.root, Transition_NoConsume, emit));
}
internal Transition*
sm_case_eof_flagged(Flag *flag_check, b32 flag_check_value, Emit_Rule *emit){
return(sm_case(TransitionCaseKind_EOF, flag_check, flag_check_value, helper_ctx.primary_ctx.model.root, Transition_Consume, emit));
}
internal Transition*
sm_case_eof_peek_flagged(Flag *flag_check, b32 flag_check_value, Emit_Rule *emit){
return(sm_case(TransitionCaseKind_EOF, flag_check, flag_check_value, helper_ctx.primary_ctx.model.root, Transition_NoConsume, emit));
}
internal Transition*
sm_fallback(State *dst){
return(sm_case(TransitionCaseKind_Fallback, 0, 0, dst, Transition_Consume, 0));
}
internal Transition*
sm_fallback_peek(State *dst){
return(sm_case(TransitionCaseKind_Fallback, 0, 0, dst, Transition_NoConsume, 0));
}
internal Transition*
sm_fallback_flagged(Flag *flag_check, b32 flag_check_value, State *dst){
return(sm_case(TransitionCaseKind_Fallback, flag_check, flag_check_value, dst, Transition_Consume, 0));
}
internal Transition*
sm_fallback_peek_flagged(Flag *flag_check, b32 flag_check_value, State *dst){
return(sm_case(TransitionCaseKind_Fallback, flag_check, flag_check_value, dst, Transition_NoConsume, 0));
}
internal Transition*
sm_fallback(Emit_Rule *emit){
return(sm_case(TransitionCaseKind_Fallback, 0, 0, helper_ctx.primary_ctx.model.root, Transition_Consume, emit));
}
internal Transition*
sm_fallback_peek(Emit_Rule *emit){
return(sm_case(TransitionCaseKind_Fallback, 0, 0, helper_ctx.primary_ctx.model.root, Transition_NoConsume, emit));
}
internal Transition*
sm_fallback_flagged(Flag *flag_check, b32 flag_check_value, Emit_Rule *emit){
return(sm_case(TransitionCaseKind_Fallback, flag_check, flag_check_value, helper_ctx.primary_ctx.model.root, Transition_Consume, emit));
}
internal Transition*
sm_fallback_peek_flagged(Flag *flag_check, b32 flag_check_value, Emit_Rule *emit){
return(sm_case(TransitionCaseKind_Fallback, flag_check, flag_check_value, helper_ctx.primary_ctx.model.root, Transition_NoConsume, emit));
}
internal void
sm_match_delim(State *dst, State *fail_dst){
sm_case(TransitionCaseKind_DelimMatch, 0, 0, dst, Transition_NoConsume, 0);
sm_case(TransitionCaseKind_DelimMatchFail, 0, 0, fail_dst, Transition_NoConsume, 0);
}
internal void
sm_on_transition_set_flag(Flag *flag, b32 value){
Transition *transition = helper_ctx.selected_transition;
smi_append_set_flag(helper_ctx.arena, &transition->activation_actions, flag, value);
}
internal void
sm_emit_check_set_flag(String_Const_u8 emit_check, Flag *flag, b32 value){
Emit_Rule *rule = helper_ctx.selected_emit_rule;
Emit_Check *new_check = push_array_zero(helper_ctx.arena, Emit_Check, 1);
sll_queue_push(rule->emit_checks.first, rule->emit_checks.last, new_check);
rule->emit_checks.count += 1;
new_check->emit_check = push_string_copy(helper_ctx.arena, emit_check);
new_check->flag = flag;
new_check->value = value;
}
internal void
sm_emit_check_set_flag(char *emit_check, Flag *flag, b32 value){
sm_emit_check_set_flag(SCu8(emit_check), flag, value);
}
internal void
sm_set_flag(Flag *flag, b32 value){
State *state = helper_ctx.selected_state;
smi_append_set_flag(helper_ctx.arena, &state->on_entry_actions, flag, value);
}
internal void
sm_delim_mark_first(void){
State *state = helper_ctx.selected_state;
smi_append_delim_mark_first(helper_ctx.arena, &state->on_entry_actions);
}
internal void
sm_delim_mark_one_past_last(void){
State *state = helper_ctx.selected_state;
smi_append_delim_mark_one_past_last(helper_ctx.arena, &state->on_entry_actions);
}
////////////////////////////////
// NOTE(allen): OPERATORS FOR COMPOSING MODEL COMPONENTS AS EXPRESSIONS
internal Operator_Set*
smo_copy_op_set(Operator_Set *set){
Operator_Set *new_set = push_array_zero(helper_ctx.arena, Operator_Set, 1);
new_set->lexeme_to_ptr = make_table_Data_u64(helper_ctx.primary_ctx.allocator, set->count*2);
for (Operator *node = set->first;
node != 0;
node = node->next){
Operator *new_node = push_array_zero(helper_ctx.arena, Operator, 1);
sll_queue_push(new_set->first, new_set->last, new_node);
new_set->count += 1;
new_node->name = node->name;
new_node->op = node->op;
table_insert(&new_set->lexeme_to_ptr, make_data(new_node->op.str, new_node->op.size), (u64)PtrAsInt(new_node));
}
return(new_set);
}
internal void
smo_remove_ops_with_prefix(Operator_Set *set, String_Const_u8 prefix){
Operator *first = 0;
Operator *last = 0;
i32 count = 0;
for (Operator *node = set->first, *next = 0;
node != 0;
node = next){
next = node->next;
if (string_match(prefix, string_prefix(node->op, prefix.size))){
table_erase(&set->lexeme_to_ptr, make_data(node->op.str, node->op.size));
}
else{
sll_queue_push(first, last, node);
count += 1;
}
}
set->first = first;
set->last = last;
set->count = count;
}
internal void
smo_remove_ops_with_prefix(Operator_Set *set, char *prefix){
smo_remove_ops_with_prefix(set, SCu8(prefix));
}
internal void
smo_remove_ops_without_prefix(Operator_Set *set, String_Const_u8 prefix){
Operator *first = 0;
Operator *last = 0;
i32 count = 0;
for (Operator *node = set->first, *next = 0;
node != 0;
node = next){
next = node->next;
if (!string_match(prefix, string_prefix(node->op, prefix.size))){
table_erase(&set->lexeme_to_ptr, make_data(node->op.str, node->op.size));
}
else{
sll_queue_push(first, last, node);
count += 1;
}
}
set->first = first;
set->last = last;
set->count = count;
}
internal void
smo_remove_ops_without_prefix(Operator_Set *set, char *prefix){
smo_remove_ops_without_prefix(set, SCu8(prefix));
}
internal void
smo_ops_string_skip(Operator_Set *set, u64 size){
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Operator_Set new_set = {};
new_set.lexeme_to_ptr = make_table_Data_u64(helper_ctx.primary_ctx.allocator, set->count*2);
for (Operator *node = set->first, *next = 0;
node != 0;
node = next){
next = node->next;
if (node->op.size > size){
String_Const_u8 new_op = string_skip(node->op, size);
if (table_insert(&new_set.lexeme_to_ptr, make_data(new_op.str, new_op.size), (u64)PtrAsInt(node))){
node->op = new_op;
sll_queue_push(new_set.first, new_set.last, node);
new_set.count += 1;
}
}
}
table_free(&set->lexeme_to_ptr);
*set = new_set;
}
internal Character_Set*
smo_new_char_set(void){
Character_Set *set = push_array_zero(helper_ctx.arena, Character_Set, 1);
set->table = make_table_u64_u64(helper_ctx.primary_ctx.allocator, 100);
return(set);
}
internal void
smo_char_set_union_ops_firsts(Character_Set *chars, Operator_Set *ops){
for (Operator *node = ops->first;
node != 0;
node = node->next){
String_Const_u8 lexeme = node->op;
u64 c = lexeme.str[0];
table_insert(&chars->table, c, c);
}
}
internal void
smo_char_set_remove(Character_Set *set, char *str){
for (char *ptr = str; *ptr != 0; ptr += 1){
table_erase(&set->table, (u64)(*ptr));
}
}
internal char*
smo_char_set_get_array(Character_Set *set){
u32 count = set->table.used_count;
char *result = push_array_zero(helper_ctx.arena, char, count + 1);
u32 index = 0;
u32 slot_count = set->table.slot_count;
for (u32 i = 0; i < slot_count; i += 1){
u64 c = set->table.keys[i];
if (c != table_empty_key && c != table_erased_key){
result[index] = (u8)(c);
index += 1;
}
}
result[count] = 0;
return(result);
}
internal State*
smo_op_set_lexer_root(Operator_Set *set, State *machine_root, String_Const_u8 fallback_token_name){
Base_Allocator *allocator = helper_ctx.primary_ctx.allocator;
Table_Data_u64 string_to_state = make_table_Data_u64(allocator, set->count*8);
State *root = sm_add_state("op root");
for (Operator *node = set->first;
node != 0;
node = node->next){
String_Const_u8 lexeme = node->op;
for (u64 i = 1; i < lexeme.size; i += 1){
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String_Const_u8 prefix = string_prefix(lexeme, i);
Table_Lookup lookup = table_lookup(&string_to_state, make_data(prefix.str, prefix.size));
if (!lookup.found_match){
State *state = sm_add_state("op stage");
State *parent = 0;
if (prefix.size == 1){
parent = root;
}
else{
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lookup = table_lookup(&string_to_state, make_data(prefix.str, prefix.size - 1));
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Assert(lookup.found_match);
u64 val = 0;
table_read(&string_to_state, lookup, &val);
parent = (State*)IntAsPtr(val);
}
u8 space[1];
space[0] = prefix.str[prefix.size - 1];
String_Const_u8 string = {space, 1};
smi_case(&helper_ctx.primary_ctx, parent, TransitionCaseKind_CharaterArray, string, 0, 0, state, Transition_Consume, 0);
table_insert(&string_to_state, make_data(prefix.str, prefix.size), (u64)PtrAsInt(state));
}
}
}
for (Operator *node = set->first;
node != 0;
node = node->next){
String_Const_u8 lexeme = node->op;
Table_Lookup lookup = table_lookup(&string_to_state, make_data(lexeme.str, lexeme.size));
if (!lookup.found_match){
State *parent = 0;
if (lexeme.size == 1){
parent = root;
}
else{
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lookup = table_lookup(&string_to_state, make_data(lexeme.str, lexeme.size - 1));
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Assert(lookup.found_match);
u64 val = 0;
table_read(&string_to_state, lookup, &val);
parent = (State*)IntAsPtr(val);
}
u8 space[1];
space[0] = lexeme.str[lexeme.size - 1];
String_Const_u8 string = {space, 1};
Emit_Rule *emit = smi_emit_rule(helper_ctx.arena);
smi_emit_handler(helper_ctx.arena, emit, node->name, 0);
smi_case(&helper_ctx.primary_ctx, parent, TransitionCaseKind_CharaterArray, string, 0, 0, machine_root, Transition_Consume, emit);
}
}
for (Operator *node = set->first;
node != 0;
node = node->next){
String_Const_u8 lexeme = node->op;
Table_Lookup lookup = table_lookup(&string_to_state, make_data(lexeme.str, lexeme.size));
if (lookup.found_match){
u64 val = 0;
table_read(&string_to_state, lookup, &val);
State *state = (State*)IntAsPtr(val);
String_Const_u8 string = {};
Emit_Rule *emit = smi_emit_rule(helper_ctx.arena);
smi_emit_handler(helper_ctx.arena, emit, node->name, 0);
smi_case(&helper_ctx.primary_ctx, state, TransitionCaseKind_Fallback, string, 0, 0, machine_root, Transition_NoConsume, emit);
}
}
{
String_Const_u8 zero_string = {};
Emit_Rule *emit = smi_emit_rule(helper_ctx.arena);
smi_emit_handler(helper_ctx.arena, emit, fallback_token_name, 0);
smi_case(&helper_ctx.primary_ctx, root, TransitionCaseKind_Fallback, zero_string, 0, 0, machine_root, Transition_NoConsume, emit);
}
for (Operator *node = set->first;
node != 0;
node = node->next){
String_Const_u8 lexeme = node->op;
for (u64 i = 1; i < lexeme.size; i += 1){
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String_Const_u8 prefix = string_prefix(lexeme, i);
Table_Lookup lookup = table_lookup(&string_to_state, make_data(prefix.str, prefix.size));
Assert(lookup.found_match);
u64 val = 0;
table_read(&string_to_state, lookup, &val);
State *state = (State*)IntAsPtr(val);
String_Const_u8 string = {};
Emit_Rule *emit = smi_emit_rule(helper_ctx.arena);
smi_emit_handler(helper_ctx.arena, emit, fallback_token_name, 0);
smi_case(&helper_ctx.primary_ctx, state, TransitionCaseKind_Fallback, string, 0, 0, machine_root, Transition_NoConsume, emit);
}
}
table_free(&string_to_state);
return(root);
}
internal State*
smo_op_set_lexer_root(Operator_Set *set, State *machine_root, char *fallback_token_name){
return(smo_op_set_lexer_root(set, machine_root, SCu8(fallback_token_name)));
}
////////////////////////////////
// NOTE(allen): HELPERS
// NOTE(allen): utf8 should be an u8 array with 129 slots.
// This will fill it out to represent all characters above the ASCII range.
internal void
smh_utf8_fill(u8 *utf8){
for (u16 i = 0; i < 128; i += 1){
utf8[i] = (u8)(i + 128);
}
utf8[128] = 0;
}
internal void
smh_set_base_character_names(void){
sm_char_name('{', "BraceOp");
sm_char_name('}', "BraceCl");
sm_char_name('(', "ParenOp");
sm_char_name(')', "ParenCl");
sm_char_name('[', "BrackOp");
sm_char_name(']', "BrackCl");
sm_char_name('-', "Minus");
sm_char_name('+', "Plus");
sm_char_name('.', "Dot");
sm_char_name('!', "Bang");
sm_char_name('*', "Star");
sm_char_name(',', "Comma");
sm_char_name(':', "Colon");
sm_char_name(';', "Semicolon");
sm_char_name('@', "At");
sm_char_name('#', "Pound");
sm_char_name('$', "Dollar");
sm_char_name('%', "Percent");
sm_char_name('^', "Carrot");
sm_char_name('&', "Amp");
sm_char_name('=', "Eq");
sm_char_name('<', "Less");
sm_char_name('>', "Grtr");
sm_char_name('~', "Tilde");
sm_char_name('/', "Slash");
sm_char_name('?', "Question");
sm_char_name('|', "Pipe");
}
internal void
smh_typical_tokens(void){
sm_select_base_kind(TokenBaseKind_EOF);
sm_direct_token_kind("EOF");
sm_select_base_kind(TokenBaseKind_Whitespace);
sm_direct_token_kind("Whitespace");
sm_select_base_kind(TokenBaseKind_LexError);
sm_direct_token_kind("LexError");
}
////////////////////////////////
////////////////////////////////
////////////////////////////////
////////////////////////////////
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////////////////////////////////
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// NOTE(allen): OPTIMIZER
internal String_Const_u8
string_char_subtract(String_Const_u8 a, String_Const_u8 b){
for (u64 i = 0; i < b.size; i += 1){
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u8 c = b.str[i];
for (u64 j = 0; j < a.size;){
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if (a.str[j] == c){
a.str[j] = a.str[a.size - 1];
a.size -= 1;
}
else{
j += 1;
}
}
}
return(a);
}
internal Action_List
opt_copy_action_list(Arena *arena, Action_List actions){
Action_List result = {};
for (Action *node = actions.first;
node != 0;
node = node->next){
Action *new_node = push_array_write(arena, Action, 1, node);
zdll_push_back(result.first, result.last, new_node);
result.count += 1;
}
return(result);
}
internal Flag*
opt_flag_fixup(Flag *old_flag, Table_u64_u64 old_to_new){
Flag *result = 0;
if (old_flag != 0){
Table_Lookup lookup = table_lookup(&old_to_new, (u64)PtrAsInt(old_flag));
Assert(lookup.found_match);
u64 val = 0;
table_read(&old_to_new, lookup, &val);
result = (Flag*)IntAsPtr(val);
}
return(result);
}
internal Transition_Case
opt_copy_condition(Arena *arena, Transition_Case condition, Table_u64_u64 old_to_new){
Transition_Case result = condition;
if (result.kind == TransitionCaseKind_ConditionSet){
result.condition_set = smi_condition_set_copy(arena, condition.condition_set);
for (Condition_Node *node = result.condition_set.first;
node != 0;
node = node->next){
Field_Set fields = node->fields;
for (Field_Pin_List *pin_list = fields.first;
pin_list != 0;
pin_list = pin_list->next){
for (Field_Pin *pin = pin_list->first;
pin != 0;
pin = pin->next){
pin->flag = opt_flag_fixup(pin->flag, old_to_new);
}
}
}
}
return(result);
}
internal Emit_Rule*
opt_copy_emit_rule(Arena *arena, Emit_Rule *emit, Table_u64_u64 old_to_new){
Emit_Rule *new_emit = push_array_write(arena, Emit_Rule, 1, emit);
block_zero_struct(&new_emit->emit_checks);
for (Emit_Check *emit_check = emit->emit_checks.first;
emit_check != 0;
emit_check = emit_check->next){
Emit_Check *new_emit_check = push_array_write(arena, Emit_Check, 1, emit_check);
sll_queue_push(new_emit->emit_checks.first, new_emit->emit_checks.last, new_emit_check);
new_emit->emit_checks.count += 1;
new_emit_check->flag = opt_flag_fixup(new_emit_check->flag, old_to_new);
}
new_emit->first = 0;
new_emit->last = 0;
for (Emit_Handler *handler = emit->first;
handler != 0;
handler = handler->next){
Emit_Handler *new_handler = push_array_write(arena, Emit_Handler, 1, handler);
sll_queue_push(new_emit->first, new_emit->last, new_handler);
new_handler->flag_check = opt_flag_fixup(handler->flag_check, old_to_new);
}
return(new_emit);
}
internal Lexer_Model
opt_copy_model(Arena *arena, Lexer_Model model){
Lexer_Model result = {};
i32 pointer_count = model.states.count + model.flags.count;
Table_u64_u64 old_to_new = make_table_u64_u64(arena->base_allocator, pointer_count*2);
Table_u64_u64 new_to_old = make_table_u64_u64(arena->base_allocator, pointer_count*2);
for (Flag *flag = model.flags.first;
flag != 0;
flag = flag->next){
Flag *new_flag = push_array_zero(arena, Flag, 1);
sll_queue_push(result.flags.first, result.flags.last, new_flag);
result.flags.count += 1;
new_flag->reset_rule = flag->reset_rule;
new_flag->emit_flags = flag->emit_flags;
new_flag->emit_sub_flags = flag->emit_sub_flags;
table_insert(&old_to_new, (u64)PtrAsInt(flag), (u64)PtrAsInt(new_flag));
table_insert(&new_to_old, (u64)PtrAsInt(new_flag), (u64)PtrAsInt(flag));
}
for (State *state = model.states.first;
state != 0;
state = state->next){
State *new_state = push_array_zero(arena, State, 1);
sll_queue_push(result.states.first, result.states.last, new_state);
result.states.count += 1;
table_insert(&old_to_new, (u64)PtrAsInt(state), (u64)PtrAsInt(new_state));
table_insert(&new_to_old, (u64)PtrAsInt(new_state), (u64)PtrAsInt(state));
new_state->pretty_name = push_string_copy(arena, state->pretty_name);
}
for (State *new_state = result.states.first;
new_state != 0;
new_state = new_state->next){
Table_Lookup lookup = table_lookup(&new_to_old, (u64)PtrAsInt(new_state));
Assert(lookup.found_match);
State *state = 0;
u64 val = 0;
table_read(&new_to_old, lookup, &val);
state = (State*)(IntAsPtr(val));
for (Transition *trans = state->transitions.first;
trans != 0;
trans = trans->next){
Transition *new_trans = push_array_zero(arena, Transition, 1);
zdll_push_back(new_state->transitions.first, new_state->transitions.last, new_trans);
new_state->transitions.count += 1;
new_trans->parent_state = new_state;
new_trans->condition = opt_copy_condition(arena, trans->condition, old_to_new);
new_trans->activation_actions = opt_copy_action_list(arena, trans->activation_actions);
for (Action *action = new_trans->activation_actions.first;
action != 0;
action = action->next){
switch (action->kind){
case ActionKind_SetFlag:
{
action->set_flag.flag = opt_flag_fixup(action->set_flag.flag, old_to_new);
}break;
case ActionKind_Emit:
{
action->emit_rule = opt_copy_emit_rule(arena, action->emit_rule, old_to_new);
}break;
}
}
lookup = table_lookup(&old_to_new, (u64)PtrAsInt(trans->dst_state));
Assert(lookup.found_match);
State *new_dst_state = 0;
table_read(&old_to_new, lookup, &val);
new_dst_state = (State*)(IntAsPtr(val));
new_trans->dst_state = new_dst_state;
}
}
table_free(&old_to_new);
table_free(&new_to_old);
for (State *state = model.states.first, *new_state = result.states.first;
state != 0 && new_state != 0;
state = state->next, new_state = new_state->next){
if (model.root == state){
result.root = new_state;
break;
}
}
Assert(result.root);
return(result);
}
internal void
opt_simplify_transitions(Lexer_Primary_Context *ctx){
for (State *state = ctx->model.states.first;
state != 0;
state = state->next){
Transition_List *transitions = &state->transitions;
b32 is_delim_match = false;
if (transitions->first->condition.kind == TransitionCaseKind_DelimMatch){
is_delim_match = true;
}
if (!is_delim_match){
Transition *first = 0;
Transition *last = 0;
i32 count = 0;
for (Transition *trans = transitions->first, *next = 0;
trans != 0;
trans = next){
next = trans->next;
Transition_Case condition = trans->condition;
Assert(condition.kind == TransitionCaseKind_ConditionSet);
Condition_Set condition_set = condition.condition_set;
for (Transition *prev_trans = first;
prev_trans != 0;
prev_trans = prev_trans->next){
Transition_Case prev_condition = prev_trans->condition;
condition_set = smi_condition_set_subtract(&ctx->arena,
condition_set,
prev_condition.condition_set);
if (condition_set.count == 0){
break;
}
}
if (condition_set.count != 0){
trans->condition.condition_set = condition_set;
zdll_push_back(first, last, trans);
count += 1;
}
}
transitions->first = first;
transitions->last = last;
transitions->count = count;
}
}
}
internal void
opt_mark_all_states_excluded(Lexer_Primary_Context *ctx){
for (State *state = ctx->model.states.first;
state != 0;
state = state->next){
state->optimized_in = false;
}
}
internal void
opt_mark_all_states_included(Lexer_Primary_Context *ctx){
for (State *state = ctx->model.states.first;
state != 0;
state = state->next){
state->optimized_in = true;
}
}
internal void
opt_discard_all_excluded_states(Lexer_Primary_Context *ctx){
State *first = 0;
State *last = 0;
i32 count = 0;
for (State *state = ctx->model.states.first, *next = 0;
state != 0;
state = next){
next = state->next;
if (state->optimized_in){
state->optimized_in = false;
sll_queue_push(first, last, state);
count += 1;
}
}
ctx->model.states.first = first;
ctx->model.states.last = last;
ctx->model.states.count = count;
}
internal void
opt_include_reachable_states(State *state){
if (!state->optimized_in){
state->optimized_in = true;
for (Transition *trans = state->transitions.first;
trans != 0;
trans = trans->next){
opt_include_reachable_states(trans->dst_state);
}
}
}
internal void
opt_update_state_back_references(Lexer_Primary_Context *ctx){
for (State *state = ctx->model.states.first;
state != 0;
state = state->next){
block_zero_struct(&state->back_references);
}
for (State *state = ctx->model.states.first;
state != 0;
state = state->next){
for (Transition *trans = state->transitions.first;
trans != 0;
trans = trans->next){
State *dst = trans->dst_state;
Transition_Ptr_Node *new_ptr_node = push_array_zero(&ctx->arena, Transition_Ptr_Node, 1);
new_ptr_node->ptr = trans;
sll_queue_push(dst->back_references.first,
dst->back_references.last,
new_ptr_node);
dst->back_references.count += 1;
}
}
}
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internal void
opt_set_auto_zero_flags_on_root(Lexer_Primary_Context *ctx){
State *root = ctx->model.root;
smi_append_zero_flags(&ctx->arena, &root->on_entry_actions);
}
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internal void
opt_transfer_state_actions_to_transitions(Lexer_Primary_Context *ctx){
opt_update_state_back_references(ctx);
for (State *state = ctx->model.states.first;
state != 0;
state = state->next){
Action_List actions = state->on_entry_actions;
if (actions.count > 0){
for (Transition_Ptr_Node *node = state->back_references.first;
node != 0;
node = node->next){
Transition *trans = node->ptr;
Action_List actions_copy = opt_copy_action_list(&ctx->arena, actions);
if (trans->activation_actions.first == 0){
trans->activation_actions = actions_copy;
}
else{
trans->activation_actions.last->next = actions_copy.first;
actions_copy.first->prev = trans->activation_actions.last;
trans->activation_actions.last = actions_copy.last;
trans->activation_actions.count += actions_copy.count;
}
}
block_zero_struct(&state->on_entry_actions);
}
}
}
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internal void
opt_flags_set_numbers(Lexer_Model model){
i32 number = 0;
for (Flag *flag = model.flags.first;
flag != 0;
flag = flag->next){
flag->number = number;
number += 1;
}
}
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internal void
opt_states_set_numbers(Lexer_Model model){
i32 number = 1;
for (State *state = model.states.first;
state != 0;
state = state->next){
state->number = number;
number += 1;
}
}
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internal void
opt_transition_pull_actions_backward(Lexer_Primary_Context *ctx, Transition *a, Transition *b){
if (b->activation_actions.count > 0){
Action_List b_actions = opt_copy_action_list(&ctx->arena, b->activation_actions);
if (a->activation_actions.first == 0){
a->activation_actions = b_actions;
}
else{
if (b_actions.first != 0){
a->activation_actions.last->next = b_actions.first;
a->activation_actions.last = b_actions.last;
a->activation_actions.count += b_actions.count;
}
}
}
a->dst_state = b->dst_state;
}
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internal void
opt_transition_push_actions_forward(Lexer_Primary_Context *ctx, Transition *a, Transition *b){
if (b->activation_actions.count > 0){
Action_List a_actions = opt_copy_action_list(&ctx->arena, a->activation_actions);
if (b->activation_actions.first == 0){
b->activation_actions = a_actions;
}
else{
if (a_actions.first != 0){
a_actions.last->next = b->activation_actions.first;
b->activation_actions.first = a_actions.first;
b->activation_actions.count += a_actions.count;
}
}
}
}
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internal b32
opt_action_list_contains_consume(Action_List list){
b32 result = false;
for (Action *act = list.first;
act != 0;
act = act->next){
if (act->kind == ActionKind_Consume){
result = true;
break;
}
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}
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return(result);
}
internal void
opt_skip_past_thunk_states(Lexer_Primary_Context *ctx){
opt_mark_all_states_included(ctx);
for (State *state = ctx->model.states.first;
state != 0;
state = state->next){
// TODO(allen): A more complete thunk state test would check if all transitions
// have the same effect. If they do, then it is a thunk state. Only having
// one transition is just a special case of this more general rule.
if (state->transitions.count == 1){
Transition *trans = state->transitions.first;
// TODO(allen): Consumes could be pulled forward into the transition actions
// for these types of "thunk states" as well, but only if we add a new concept
// for representing "action blocks" separately from actions contained in a
// transition handler, so that a handler can have multiple blocks. Then we would
// need to be able to identify thunk cycles, and add an entire extra concept to
// the state machine generated code, that it can sometimes get into a "stateless"
// thunk loop that can never be exited, but continues to consume one input at
// a time doing each action block.
b32 contains_consume = opt_action_list_contains_consume(trans->activation_actions);
if (!contains_consume){
state->optimized_in = false;
}
}
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}
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for (State *state = ctx->model.states.first;
state != 0;
state = state->next){
if (state->optimized_in){
Transition_List *transitions = &state->transitions;
for (Transition *trans = transitions->first;
trans != 0;
trans = trans->next){
for (;!trans->dst_state->optimized_in;){
Transition *dst_trans = trans->dst_state->transitions.first;
opt_transition_pull_actions_backward(ctx, trans, dst_trans);
}
}
}
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}
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}
internal b32
opt_emit_rule_match(Emit_Rule *rule_a, Emit_Rule *rule_b){
b32 result = true;
if (rule_a->emit_checks.count != rule_b->emit_checks.count){
result = false;
goto end;
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}
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for (Emit_Check *check_a = rule_a->emit_checks.first, *check_b = rule_b->emit_checks.first;
check_a != 0 && check_b != 0;
check_a = check_a->next, check_b = check_b->next){
if (check_a->flag != check_b->flag ||
!string_match(check_a->emit_check, check_b->emit_check) ||
check_a->value != check_b->value){
result = false;
goto end;
}
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}
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if (rule_a->count != rule_b->count){
result = false;
goto end;
}
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for (Emit_Handler *handler_a = rule_a->first, *handler_b = rule_b->first;
handler_a != 0 && handler_b != 0;
handler_a = handler_a->next, handler_b = handler_b->next){
if (handler_a->kind != handler_b->kind ||
handler_a->flag_check != handler_b->flag_check){
result = false;
goto end;
}
switch (handler_a->kind){
case EmitHandlerKind_Direct:
{
if (!string_match(handler_a->token_name, handler_b->token_name)){
result = false;
goto end;
}
}break;
case EmitHandlerKind_Keywords:
case EmitHandlerKind_KeywordsDelim:
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{
if (handler_a->keywords != handler_b->keywords){
result = false;
goto end;
}
}break;
}
}
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end:;
return(result);
}
internal b32
opt_action_lists_match(Action_List a, Action_List b){
b32 result = false;
if (a.count == b.count){
result = true;
for (Action *node_a = a.first, *node_b = b.first;
node_a != 0 && node_b != 0;
node_a = node_a->next, node_b = node_b->next){
if (node_a->kind != node_b->kind){
result = false;
goto double_break;
}
switch (node_a->kind){
case ActionKind_SetFlag:
{
if (node_a->set_flag.flag != node_b->set_flag.flag ||
node_a->set_flag.value != node_b->set_flag.value){
result = false;
goto double_break;
}
}break;
case ActionKind_Emit:
{
if (!opt_emit_rule_match(node_a->emit_rule, node_b->emit_rule)){
result = false;
goto double_break;
}
}break;
}
}
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}
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double_break:;
return(result);
}
internal void
opt_merge_redundant_transitions_in_each_state(Lexer_Primary_Context *ctx){
for (State *state = ctx->model.states.first;
state != 0;
state = state->next){
Transition_List *transitions = &state->transitions;
Transition *first = 0;
Transition *last = 0;
i32 count = 0;
for (Transition *trans = transitions->first, *next = 0;
trans != 0;
trans = next){
next = trans->next;
Transition *merge_trans = 0;
for (Transition *comp_trans = trans->next;
comp_trans != 0;
comp_trans = comp_trans->next){
if (opt_action_lists_match(trans->activation_actions, comp_trans->activation_actions) &&
trans->dst_state == comp_trans->dst_state){
merge_trans = comp_trans;
break;
}
}
if (merge_trans != 0){
Assert(trans->condition.kind == TransitionCaseKind_ConditionSet);
Assert(merge_trans->condition.kind == TransitionCaseKind_ConditionSet);
merge_trans->condition.condition_set =
smi_condition_set_union(&ctx->arena,
trans->condition.condition_set,
merge_trans->condition.condition_set);
}
else{
zdll_push_back(first, last, trans);
count += 1;
}
}
transitions->first = first;
transitions->last = last;
transitions->count = count;
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}
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}
internal b32
opt_condition_set_is_subset(Arena *scratch, Condition_Set sub, Condition_Set super){
Temp_Memory temp = begin_temp(scratch);
Condition_Set left_over = smi_condition_set_subtract(scratch, sub, super);
b32 result = (left_over.count == 0);
end_temp(temp);
return(result);
}
internal void
opt_remove_peeks_without_creating_transition_splits(Lexer_Primary_Context *ctx){
for (State *state = ctx->model.states.first;
state != 0;
state = state->next){
Transition_List *transitions = &state->transitions;
if (transitions->first->condition.kind != TransitionCaseKind_ConditionSet){
continue;
}
for (Transition *trans = transitions->first;
trans != 0;
trans = trans->next){
i32 step_counter = 0;
for (;!opt_action_list_contains_consume(trans->activation_actions);
step_counter += 1){
// NOTE(allen): Hitting this (most likely) indicates a peek cycle
// that wasn't caught by type checking.
Assert(step_counter < ctx->model.states.count);
b32 found_action_extension = false;
State *dst_state = trans->dst_state;
Transition_List *dst_transitions = &dst_state->transitions;
if (dst_transitions->first->condition.kind != TransitionCaseKind_ConditionSet){
break;
}
for (Transition *dst_trans = dst_transitions->first;
dst_trans != 0;
dst_trans = dst_trans->next){
if (opt_condition_set_is_subset(&ctx->arena,
trans->condition.condition_set,
dst_trans->condition.condition_set)){
opt_transition_pull_actions_backward(ctx, trans, dst_trans);
found_action_extension = true;
break;
}
}
if (!found_action_extension){
break;
}
}
}
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}
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}
internal void
opt_remove_peeks_into_single_entry_point_states(Lexer_Primary_Context *ctx){
opt_update_state_back_references(ctx);
opt_mark_all_states_included(ctx);
for (State *state = ctx->model.states.first;
state != 0;
state = state->next){
if (state->transitions.first->condition.kind != TransitionCaseKind_ConditionSet){
continue;
}
if (state->back_references.count == 1){
Transition *src_trans = state->back_references.first->ptr;
if (src_trans->condition.kind != TransitionCaseKind_ConditionSet){
continue;
}
if (!opt_action_list_contains_consume(src_trans->activation_actions)){
State *src_state = src_trans->parent_state;
state->optimized_in = false;
Transition *first = 0;
Transition *last = 0;
i32 count = 0;
for (Transition *trans = state->transitions.first, *next = 0;
trans != 0;
trans = next){
next = trans->next;
trans->condition.condition_set =
smi_condition_set_intersect(&ctx->arena,
trans->condition.condition_set,
src_trans->condition.condition_set);
if (trans->condition.condition_set.count > 0){
trans->parent_state = src_state;
opt_transition_push_actions_forward(ctx, src_trans, trans);
zdll_push_back(first, last, trans);
count += 1;
}
}
Assert(count != 0);
if (src_trans->prev != 0){
src_trans->prev->next = first;
}
if (src_trans->next != 0){
src_trans->next->prev = last;
}
first->prev = src_trans->prev;
last->next = src_trans->next;
src_state->transitions.count += count;
}
}
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}
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}
internal b32
opt_condition_is_eof_only(Transition_Case condition){
b32 result = false;
if (condition.kind == TransitionCaseKind_ConditionSet){
result = true;
for (Condition_Node *node = condition.condition_set.first;
node != 0;
node = node->next){
Input_Set inputs = node->inputs;
if (inputs.count > 1 || inputs.inputs[0] != smi_eof){
result = false;
break;
}
}
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}
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return(result);
}
internal Keyword_Layout
opt_key_layout(Arena *arena, Keyword_Set keywords, i32 slot_count, u64 seed){
Keyword_Layout layout = {};
slot_count = clamp_bot(keywords.count + 1, slot_count);
layout.seed = seed;
layout.hashes = push_array_zero(arena, u64, slot_count);
layout.contributed_error = push_array_zero(arena, u64, slot_count);
layout.slots = push_array_zero(arena, Keyword*, slot_count);
layout.slot_count = slot_count;
for (Keyword *keyword = keywords.first;
keyword != 0;
keyword = keyword->next){
u64 hash = lexeme_hash(seed, keyword->lexeme.str, keyword->lexeme.size);
i32 first_index = (hash%slot_count);
i32 index = first_index;
Keyword *keyword_insert = keyword;
u64 contributed_error = 0;
for (;;){
if (layout.slots[index] == 0){
layout.hashes[index] = hash;
layout.contributed_error[index] = contributed_error;
layout.slots[index] = keyword_insert;
break;
}
else{
if (contributed_error > layout.contributed_error[index]){
Swap(u64, hash, layout.hashes[index]);
Swap(Keyword*, keyword_insert, layout.slots[index]);
Swap(u64, contributed_error, layout.contributed_error[index]);
}
}
index += 1;
contributed_error += 1;
if (index >= slot_count){
index = 0;
}
if (index == first_index){
InvalidPath;
}
}
}
i32 max_run_length = 0;
i32 run_length = 0;
for (i32 i = 0; i < slot_count; i += 1){
if (layout.slots[i] == 0){
run_length = 0;
}
else{
run_length += 1;
layout.error_score += run_length;
max_run_length = Max(max_run_length, run_length);
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}
}
i32 total_run_length = run_length;
for (i32 i = 0; i < slot_count; i += 1){
if (layout.slots[i] == 0){
break;
}
else{
layout.error_score += run_length;
total_run_length += 1;
max_run_length = Max(max_run_length, total_run_length);
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}
}
layout.max_single_error_score = max_run_length;
layout.iterations_per_lookup = (f32)layout.error_score/(f32)layout.slot_count;
return(layout);
}
internal u64
random_u64_dirty(void){
u64 a = pcg32_random();
u64 b = pcg32_random();
return((b << 32) | a);
}
#if 0
internal Keyword_Layout
opt_key_layout(Arena *arena, Keyword_Set keywords){
i32 slot_count = keywords.count*2;
u64 seed = random_u64_dirty();
return(opt_key_layout(arena, keywords, slot_count, seed));
}
#endif
internal Keyword_Layout
opt_key_layout(Arena *arena, Keyword_Set keywords){
i32 init_slot_count = keywords.count + 1;
if (keywords.count == 1){
init_slot_count = 1;
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}
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#if 0
// heavy optimization effort
f32 acceptable_error_threshold = 2.f;
f32 accumulated_error_threshold = 8000.f;
i32 acceptable_max_single_error = 4;
i32 accumulated_max_single_error_threshold = Thousand(800);
#else
// light optimization effort
f32 acceptable_error_threshold = 1.1f;
f32 accumulated_error_threshold = 200.f;
i32 acceptable_max_single_error = 5;
i32 accumulated_max_single_error_threshold = Thousand(40);
#endif
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Keyword_Layout best_layout = {};
best_layout.iterations_per_lookup = max_f32;
i32 slot_count = init_slot_count;
for (;; slot_count += 1){
f32 accumulated_error = 0;
for (;;){
u64 seed = random_u64_dirty();
Temp_Memory restore_point = begin_temp(arena);
Keyword_Layout layout = opt_key_layout(arena, keywords, slot_count, seed);
accumulated_error += layout.iterations_per_lookup;
if (layout.iterations_per_lookup < best_layout.iterations_per_lookup){
best_layout = layout;
if (layout.iterations_per_lookup <= acceptable_error_threshold){
goto optimize_max_single_error;
}
}
else{
end_temp(restore_point);
}
if (accumulated_error >= accumulated_error_threshold){
break;
}
}
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}
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optimize_max_single_error:
if (best_layout.max_single_error_score <= acceptable_max_single_error){
goto finished;
}
for (;; slot_count += 1){
u64 accumulated_error = 0;
for (;;){
u64 seed = random_u64_dirty();
Temp_Memory restore_point = begin_temp(arena);
Keyword_Layout layout = opt_key_layout(arena, keywords, slot_count, seed);
u64 adjusted_error_score = (layout.max_single_error_score + acceptable_max_single_error - 1)/acceptable_max_single_error;
adjusted_error_score *= adjusted_error_score;
adjusted_error_score *= acceptable_max_single_error;
accumulated_error += adjusted_error_score;
if (layout.max_single_error_score < best_layout.max_single_error_score &&
layout.iterations_per_lookup <= best_layout.iterations_per_lookup){
best_layout = layout;
if (layout.max_single_error_score <= acceptable_max_single_error){
goto finished;
}
}
else{
end_temp(restore_point);
}
if (accumulated_error >= accumulated_max_single_error_threshold){
break;
}
}
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}
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finished:;
return(best_layout);
}
////////////////////////////////
internal b32
opt__input_set_contains(Input_Set set, u16 x){
b32 result = false;
for (i32 i = 0; i < set.count; i += 1){
if (set.inputs[i] == x){
result = true;
break;
}
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}
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return(result);
}
internal b32
opt__partial_transition_match(Arena *scratch, Partial_Transition *a, Partial_Transition *b){
b32 result = false;
if (smi_field_set_match(scratch, a->fields, b->fields)){
if (opt_action_lists_match(a->actions, b->actions)){
if (a->dst_state == b->dst_state){
result = true;
}
}
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}
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return(result);
}
internal void
opt__push_partial_transition(Arena *arena, Partial_Transition_List *list, Field_Set fields, Transition *trans){
Partial_Transition partial = {};
partial.fields = fields;
partial.actions = trans->activation_actions;
partial.dst_state = trans->dst_state;
b32 is_duplicate = false;
for (Partial_Transition *node = list->first;
node != 0;
node = node->next){
if (opt__partial_transition_match(arena, node, &partial)){
is_duplicate = true;
break;
}
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}
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if (!is_duplicate){
Partial_Transition *result = push_array_write(arena, Partial_Transition, 1, &partial);
sll_queue_push(list->first, list->last, result);
list->count += 1;
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}
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}
internal b32
opt__partial_transition_list_match(Arena *scratch, Partial_Transition_List *a, Partial_Transition_List *b){
b32 result = false;
if (a->count == b->count){
result = true;
for (Partial_Transition *node_a = a->first;
node_a != 0;
node_a = node_a->next){
b32 has_match = false;
for (Partial_Transition *node_b = b->first;
node_b != 0;
node_b = node_b->next){
if (opt__partial_transition_match(scratch, node_a, node_b)){
has_match = true;
break;
}
}
if (!has_match){
result = false;
}
}
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}
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return(result);
}
internal void
opt__insert_input_into_group(Grouped_Input_Handler *group, u8 x){
if (!group->inputs_used[x]){
group->inputs_used[x] = true;
group->inputs[group->input_count] = x;
group->input_count += 1;
}
}
internal Grouped_Input_Handler_List
opt_grouped_input_handlers(Arena *arena, Transition *first_trans){
Grouped_Input_Handler_List result = {};
Assert(first_trans->condition.kind == TransitionCaseKind_ConditionSet);
Grouped_Input_Handler *biggest_group = 0;
i32 size_of_biggest = 0;
for (u16 i = 0; i <= 255; i += 1){
Temp_Memory restore_point = begin_temp(arena);
Partial_Transition_List list = {};
for (Transition *trans = first_trans;
trans != 0;
trans = trans->next){
Assert(trans->condition.kind == TransitionCaseKind_ConditionSet);
Condition_Set condition_set = trans->condition.condition_set;
for (Condition_Node *node = condition_set.first;
node != 0;
node = node->next){
if (opt__input_set_contains(node->inputs, i)){
opt__push_partial_transition(arena, &list, node->fields, trans);
}
}
}
Grouped_Input_Handler *matching_group = 0;
for (Grouped_Input_Handler *group = result.first;
group != 0;
group = group->next){
if (opt__partial_transition_list_match(arena, &group->partial_transitions, &list)){
matching_group = group;
break;
}
}
if (matching_group != 0){
end_temp(restore_point);
}
else{
matching_group = push_array_zero(arena, Grouped_Input_Handler, 1);
sll_queue_push(result.first, result.last, matching_group);
result.count += 1;
matching_group->partial_transitions = list;
}
opt__insert_input_into_group(matching_group, (u8)i);
if (matching_group->input_count > size_of_biggest){
size_of_biggest = matching_group->input_count;
biggest_group = matching_group;
}
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}
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result.group_with_biggest_input_set = biggest_group;
return(result);
}
////////////////////////////////
internal void
debug_print_states(Lexer_Primary_Context *ctx){
printf("Number of States: %d\n", ctx->model.states.count);
i32 transition_count = 0;
for (State *state = ctx->model.states.first;
state != 0;
state = state->next){
Transition_List *transitions = &state->transitions;
transition_count += transitions->count;
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}
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printf("Number of Transitions: %d\n", transition_count);
for (State *state = ctx->model.states.first;
state != 0;
state = state->next){
printf("State: %.*s\n", string_expand(state->pretty_name));
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}
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}
internal void
debug_print_transitions(Arena *scratch, Lexer_Model model){
Temp_Memory temp = begin_temp(scratch);
i32 field_bit_width = model.flags.count;
char *field_memory = push_array(scratch, char, field_bit_width);
printf("Number of States: %d\n", model.states.count);
i32 transition_count = 0;
for (State *state = model.states.first;
state != 0;
state = state->next){
Transition_List *transitions = &state->transitions;
transition_count += transitions->count;
}
printf("Number of Transitions: %d\n", transition_count);
for (State *state = model.states.first;
state != 0;
state = state->next){
printf("State: %.*s\n", string_expand(state->pretty_name));
Transition_List *transitions = &state->transitions;
for (Transition *trans = transitions->first;
trans != 0;
trans = trans->next){
#define transition_on "Transition on "
if (trans->condition.kind == TransitionCaseKind_DelimMatch){
printf("\t" transition_on "<DelimMatch>\n");
}
else{
printf("\t" transition_on "");
for (Condition_Node *node = trans->condition.condition_set.first;
node != 0;
node = node->next){
printf("([%3d]", node->inputs.count);
if (node->inputs.count < 10){
b32 all_printable = true;
char ascii[30];
i32 j = 0;
for (i32 i = 0; i < node->inputs.count; i += 1){
b32 is_ascii = character_is_basic_ascii(node->inputs.inputs[i]);
b32 is_eof = (node->inputs.inputs[i] == smi_eof);
if (!(is_ascii || is_eof)){
all_printable = false;
break;
}
if (is_ascii){
ascii[j] = (char)(node->inputs.inputs[i]);
j += 1;
}
else if (is_eof){
ascii[j] = 'E';
j += 1;
ascii[j] = 'O';
j += 1;
ascii[j] = 'F';
j += 1;
}
}
if (all_printable){
printf(" = {%.*s}", j, ascii);
}
}
printf(" x ");
printf("(");
for (Field_Pin_List *pins = node->fields.first;
pins != 0;
pins = pins->next){
block_fill_u8(field_memory, field_bit_width, '*');
for (Field_Pin *pin = pins->first;
pin != 0;
pin = pin->next){
i32 flag_number = pin->flag->number;
field_memory[flag_number] = pin->value?'1':'0';
}
printf("%.*s", field_bit_width, field_memory);
if (pins->next != 0){
printf(", ");
}
}
printf("))");
if (node->next != 0){
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printf(" union\n\t%.*s", (i32)(sizeof(transition_on) - 1),
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" ");
}
}
printf(":\n");
}
for (Action *act = trans->activation_actions.first;
act != 0;
act = act->next){
switch (act->kind){
case ActionKind_SetFlag:
{
printf("\t\tSet Flag\n");
}break;
case ActionKind_ZeroFlags:
{
printf("\t\tZero Flags\n");
}break;
case ActionKind_DelimMarkFirst:
{
printf("\t\tDelim Mark First\n");
}break;
case ActionKind_DelimMarkOnePastLast:
{
printf("\t\tDelim Mark One Past Last\n");
}break;
case ActionKind_Consume:
{
printf("\t\tConsume\n");
}break;
case ActionKind_Emit:
{
printf("\t\tEmit\n");
}break;
}
}
printf("\t\tGo to %.*s;\n", string_expand(trans->dst_state->pretty_name));
}
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}
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end_temp(temp);
}
internal void
debug_print_transitions(Lexer_Primary_Context *ctx){
debug_print_transitions(&ctx->arena, ctx->model);
}
internal void
debug_print_keyword_table_metrics(Keyword_Layout key_layout, i32 keyword_count){
printf("used count: %d\n", keyword_count);
printf("slot count: %d\n", key_layout.slot_count);
printf("table load factor: %f\n", (f32)keyword_count/(f32)key_layout.slot_count);
printf("error score: %llu\n", key_layout.error_score);
printf("error per lookup: %f\n", key_layout.iterations_per_lookup);
printf("max single error score: %llu\n", key_layout.max_single_error_score);
for (i32 i = 0; i < key_layout.slot_count; i += 1){
Keyword *keyword = key_layout.slots[i];
if (keyword == 0){
printf("[%d] -> <null>\n", i);
}
else{
printf("[%d] -> \"%.*s\"\n", i, string_expand(keyword->lexeme));
}
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}
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}
////////////////////////////////
internal char*
gen_token_full_name(Arena *arena, String_Const_u8 base_name){
String_Const_u8 string = push_u8_stringf(arena,
"Token" LANG_NAME_CAMEL_STR "Kind_%.*s",
string_expand(base_name));
return((char*)(string.str));
}
internal void
gen_tokens(Arena *scratch, Token_Kind_Set tokens, FILE *out){
Temp_Memory temp = begin_temp(scratch);
i32 counter = 0;
fprintf(out, "typedef u16 Token_" LANG_NAME_CAMEL_STR "_Kind;\n");
fprintf(out, "enum{\n");
for (Token_Kind_Node *node = tokens.first;
node != 0;
node = node->next){
char *full_name = gen_token_full_name(scratch, node->name);
fprintf(out, "%s = %d,\n", full_name, counter);
counter += 1;
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}
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char *full_name = gen_token_full_name(scratch, SCu8("COUNT"));
fprintf(out, "%s = %d,\n", full_name, counter);
fprintf(out, "};\n");
fprintf(out, "char *token_" LANG_NAME_LOWER_STR "_kind_names[] = {\n");
for (Token_Kind_Node *node = tokens.first;
node != 0;
node = node->next){
fprintf(out, "\"%.*s\",\n", string_expand(node->name));
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}
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fprintf(out, "};\n");
end_temp(temp);
}
internal void
gen_keyword_table(Arena *scratch, Token_Kind_Set tokens, Keyword_Set keywords, FILE *out){
Temp_Memory temp = begin_temp(scratch);
Keyword_Layout key_layout = opt_key_layout(scratch, keywords);
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fprintf(out, "u64 " LANG_NAME_LOWER_STR "_%.*s_hash_array[%d] = {\n",
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string_expand(keywords.pretty_name), key_layout.slot_count);
for (i32 i = 0; i < key_layout.slot_count; i += 1){
if (key_layout.slots[i] == 0){
fprintf(out, "0x%016x,", 0);
}
else{
fprintf(out, "0x%016llx,", (u64)((u64)(key_layout.hashes[i]) | 1));
}
if (i % 4 == 3 || i + 1 == key_layout.slot_count){
fprintf(out, "\n");
}
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}
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fprintf(out, "};\n");
for (i32 i = 0; i < key_layout.slot_count; i += 1){
if (key_layout.slots[i] != 0){
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fprintf(out, "u8 " LANG_NAME_LOWER_STR "_%.*s_key_array_%d[] = {",
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string_expand(keywords.pretty_name), i);
String_Const_u8 lexeme = key_layout.slots[i]->lexeme;
for (u64 j = 0; j < lexeme.size; j += 1){
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fprintf(out, "0x%02x,", lexeme.str[j]);
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}
fprintf(out, "};\n");
}
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}
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fprintf(out, "String_Const_u8 " LANG_NAME_LOWER_STR "_%.*s_key_array[%d] = {\n",
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string_expand(keywords.pretty_name), key_layout.slot_count);
for (i32 i = 0; i < key_layout.slot_count; i += 1){
if (key_layout.slots[i] == 0){
fprintf(out, "{0, 0},\n");
}
else{
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fprintf(out, "{" LANG_NAME_LOWER_STR "_%.*s_key_array_%d, %llu},\n",
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string_expand(keywords.pretty_name), i, key_layout.slots[i]->lexeme.size);
}
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}
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fprintf(out, "};\n");
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fprintf(out, "Lexeme_Table_Value " LANG_NAME_LOWER_STR "_%.*s_value_array[%d] = {\n",
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string_expand(keywords.pretty_name), key_layout.slot_count);
for (i32 i = 0; i < key_layout.slot_count; i += 1){
if (key_layout.slots[i] == 0){
fprintf(out, "{0, 0},\n");
}
else{
Temp_Memory temp2 = begin_temp(scratch);
Keyword *keyword = key_layout.slots[i];
String_Const_u8 name = keyword->name;
char *full_token_name = gen_token_full_name(scratch, name);
Table_Lookup lookup = table_lookup(&tokens.name_to_ptr, make_data(name.str, name.size));
Assert(lookup.found_match);
u64 val = 0;
table_read(&tokens.name_to_ptr, lookup, &val);
Token_Kind_Node *token_node = (Token_Kind_Node*)IntAsPtr(val);
fprintf(out, "{%u, %s},\n", token_node->base_kind, full_token_name);
end_temp(temp2);
}
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}
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fprintf(out, "};\n");
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fprintf(out, "i32 " LANG_NAME_LOWER_STR "_%.*s_slot_count = %d;\n",
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string_expand(keywords.pretty_name), key_layout.slot_count);
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fprintf(out, "u64 " LANG_NAME_LOWER_STR "_%.*s_seed = 0x%016llx;\n",
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string_expand(keywords.pretty_name), key_layout.seed);
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end_temp(temp);
}
internal void
gen_flag_check__cont_flow(Flag *flag, b32 value, FILE *out){
if (value == 0){
fprintf(out, "!");
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}
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fprintf(out, "HasFlag(state.%.*s%d, 0x%x)", string_expand(flag->base_name), flag->index, flag->value);
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}
internal void
gen_SLOW_field_set_check__cont_flow(Field_Set fields, FILE *out){
for (Field_Pin_List *pin_list = fields.first;
pin_list != 0;
pin_list = pin_list->next){
fprintf(out, "(");
if (pin_list->count > 0){
for (Field_Pin *pin = pin_list->first;
pin != 0;
pin = pin->next){
gen_flag_check__cont_flow(pin->flag, pin->value, out);
if (pin->next != 0){
fprintf(out, " && ");
}
}
}
else{
fprintf(out, "true");
}
fprintf(out, ")");
if (pin_list->next != 0){
fprintf(out, " || ");
}
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}
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}
internal void
gen_goto_state__cont_flow(State *state, Action_Context context, FILE *out){
switch (context){
case ActionContext_Normal:
{
fprintf(out, "goto state_label_%d; // %.*s\n",
state->number, string_expand(state->pretty_name));
}break;
case ActionContext_EndOfFile:
{
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fprintf(out, "result = true;\n");
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fprintf(out, "goto end;\n");
}break;
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}
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}
internal void
gen_goto_dst_state__cont_flow(Transition *trans, Action_Context context, FILE *out){
gen_goto_state__cont_flow(trans->dst_state, context, out);
}
internal void
gen_action__set_flag(Flag *flag, b32 value, FILE *out){
if (flag != 0){
if (value == 0){
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fprintf(out, "state.%.*s%d &= ~(0x%x);\n",
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string_expand(flag->base_name), flag->index, flag->value);
}
else{
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fprintf(out, "state.%.*s%d |= 0x%x;\n",
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string_expand(flag->base_name), flag->index, flag->value);
}
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}
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}
internal void
gen_emit__fill_token_flags(Flag_Set flags, Flag_Bucket_Set bucket_set, FILE *out){
if (bucket_set.buckets[FlagBindProperty_Bound][FlagResetRule_AutoZero].count > 0){
if (bucket_set.buckets[FlagBindProperty_Bound][FlagResetRule_KeepState].count > 0){
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fprintf(out, "token.flags = state.flag_ZB0 | state.flags_KB0;\n");
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}
else{
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fprintf(out, "token.flags = state.flags_ZB0;\n");
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}
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}
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else{
if (bucket_set.buckets[FlagBindProperty_Bound][FlagResetRule_KeepState].count > 0){
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fprintf(out, "token.flags = state.flags_KB0;\n");
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}
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}
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for (Flag *flag = flags.first;
flag != 0;
flag = flag->next){
if (flag->emit_sub_flags != 0){
fprintf(out, "if (");
gen_flag_check__cont_flow(flag, true, out);
fprintf(out, "){\n");
fprintf(out, "token.sub_flags |= 0x%x;\n", flag->emit_sub_flags);
fprintf(out, "}\n");
}
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}
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}
internal void
gen_emit__fill_token_base_kind(Token_Kind_Set tokens, String_Const_u8 name, FILE *out){
Table_Lookup lookup = table_lookup(&tokens.name_to_ptr, make_data(name.str, name.size));
Assert(lookup.found_match);
u64 val = 0;
table_read(&tokens.name_to_ptr, lookup, &val);
Token_Kind_Node *node = (Token_Kind_Node*)IntAsPtr(val);
Token_Base_Kind base_kind = node->base_kind;
// TODO(allen): pretty names for token base kinds?
fprintf(out, "token.kind = %u;\n", base_kind);
}
internal void
gen_emit__direct(Arena *scratch, Token_Kind_Set tokens, String_Const_u8 base_name, FILE *out){
Temp_Memory temp = begin_temp(scratch);
char *token_full_name = gen_token_full_name(scratch, base_name);
fprintf(out, "token.sub_kind = %s;\n", token_full_name);
gen_emit__fill_token_base_kind(tokens, base_name, out);
end_temp(temp);
}
internal Action_Context
gen_SLOW_action_list__cont_flow(Arena *scratch, Token_Kind_Set tokens, Flag_Set flags,
Flag_Bucket_Set bucket_set, Action_List action_list,
Action_Context context, FILE *out){
Action_Context result_context = ActionContext_Normal;
for (Action *action = action_list.first;
action != 0;
action = action->next){
switch (action->kind){
case ActionKind_SetFlag:
{
gen_action__set_flag(action->set_flag.flag, action->set_flag.value, out);
}break;
case ActionKind_ZeroFlags:
{
for (i32 i = 0; i < FlagBindProperty_COUNT; i += 1){
Flag_Bucket *bucket = &bucket_set.buckets[i][FlagResetRule_AutoZero];
for (i32 j = 0; j < bucket->number_of_variables; j += 1){
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fprintf(out, "state.%.*s%d = 0;\n", string_expand(bucket->pretty_name), j);
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}
}
}break;
case ActionKind_DelimMarkFirst:
{
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fprintf(out, "state.delim_first = state.ptr;\n");
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}break;
case ActionKind_DelimMarkOnePastLast:
{
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fprintf(out, "state.delim_one_past_last = state.ptr;\n");
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}break;
case ActionKind_Consume:
{
if (context != ActionContext_EndOfFile){
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fprintf(out, "state.ptr += 1;\n");
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}
else{
result_context = ActionContext_EndOfFile;
}
}break;
case ActionKind_Emit:
{
Emit_Rule *emit = action->emit_rule;
fprintf(out, "{\n");
fprintf(out, "Token token = {};\n");
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fprintf(out, "token.pos = (i64)(state.emit_ptr - state.base);\n");
fprintf(out, "token.size = (i64)(state.ptr - state.emit_ptr);\n");
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gen_emit__fill_token_flags(flags, bucket_set, out);
fprintf(out, "do{\n");
b32 keep_looping = true;
for (Emit_Handler *handler = emit->first;
handler != 0 && keep_looping;
handler = handler->next){
if (handler->flag_check != 0){
fprintf(out, "if (");
gen_flag_check__cont_flow(handler->flag_check, true, out);
fprintf(out, "){\n");
}
switch (handler->kind){
case EmitHandlerKind_Direct:
{
gen_emit__direct(scratch, tokens, handler->token_name, out);
if (handler->flag_check != 0){
fprintf(out, "break;\n");
}
keep_looping = false;
}break;
case EmitHandlerKind_Keywords:
{
Keyword_Set *keywords = handler->keywords;
fprintf(out, "Lexeme_Table_Lookup lookup = "
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"lexeme_table_lookup("
LANG_NAME_LOWER_STR "_%.*s_hash_array, "
LANG_NAME_LOWER_STR "_%.*s_key_array, "
LANG_NAME_LOWER_STR "_%.*s_value_array, "
LANG_NAME_LOWER_STR "_%.*s_slot_count, "
LANG_NAME_LOWER_STR "_%.*s_seed, "
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"state.emit_ptr, token.size);\n",
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string_expand(keywords->pretty_name),
string_expand(keywords->pretty_name),
string_expand(keywords->pretty_name),
string_expand(keywords->pretty_name),
string_expand(keywords->pretty_name));
fprintf(out, "if (lookup.found_match){\n");
fprintf(out, "token.kind = lookup.base_kind;\n");
fprintf(out, "token.sub_kind = lookup.sub_kind;\n");
fprintf(out, "break;\n");
fprintf(out, "}\n");
if (handler->keywords->has_fallback_token_kind){
gen_emit__direct(scratch, tokens,
keywords->fallback_name, out);
keep_looping = false;
}
}break;
case EmitHandlerKind_KeywordsDelim:
{
Keyword_Set *keywords = handler->keywords;
fprintf(out, "Lexeme_Table_Lookup lookup = "
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"lexeme_table_lookup("
LANG_NAME_LOWER_STR "_%.*s_hash_array, "
LANG_NAME_LOWER_STR "_%.*s_key_array, "
LANG_NAME_LOWER_STR "_%.*s_value_array, "
LANG_NAME_LOWER_STR "_%.*s_slot_count, "
LANG_NAME_LOWER_STR "_%.*s_seed, "
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"state.delim_first, (state.delim_one_past_last - state.delim_first));\n",
string_expand(keywords->pretty_name),
string_expand(keywords->pretty_name),
string_expand(keywords->pretty_name),
string_expand(keywords->pretty_name),
string_expand(keywords->pretty_name));
fprintf(out, "if (lookup.found_match){\n");
fprintf(out, "token.kind = lookup.base_kind;\n");
fprintf(out, "token.sub_kind = lookup.sub_kind;\n");
fprintf(out, "break;\n");
fprintf(out, "}\n");
if (handler->keywords->has_fallback_token_kind){
gen_emit__direct(scratch, tokens,
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keywords->fallback_name, out);
keep_looping = false;
}
}break;
}
if (handler->flag_check != 0){
fprintf(out, "}\n");
keep_looping = true;
}
}
fprintf(out, "}while(0);\n");
if (emit->emit_checks.count > 0){
fprintf(out, "switch (token.sub_kind){\n");
for (Emit_Check *emit_check = emit->emit_checks.first;
emit_check != 0;
emit_check = emit_check->next){
Temp_Memory temp = begin_temp(scratch);
char *emit_check_full_name = gen_token_full_name(scratch, emit_check->emit_check);
fprintf(out, "case %s:\n", emit_check_full_name);
fprintf(out, "{\n");
gen_action__set_flag(emit_check->flag, emit_check->value, out);
fprintf(out, "}break;\n");
end_temp(temp);
}
fprintf(out, "}\n");
}
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fprintf(out, "token_list_push(arena, list, &token);\n");
fprintf(out, "emit_counter += 1;\n");
fprintf(out, "state.emit_ptr = state.ptr;\n");
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if (context != ActionContext_EndOfFile){
fprintf(out, "if (emit_counter == max){\n");
fprintf(out, "goto end;\n");
fprintf(out, "}\n");
}
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fprintf(out, "}\n");
}break;
}
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}
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return(result_context);
}
internal void
gen_flag_declarations__cont_flow(Flag_Bucket *bucket, FILE *out){
i32 max_bits = bucket->max_bits;
i32 number_of_flag_variables = (bucket->count + max_bits - 1)/max_bits;
String_Const_u8 pretty_name = bucket->pretty_name;
for (i32 i = 0; i < number_of_flag_variables; i += 1){
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fprintf(out, "u%d %.*s%d;\n", max_bits, string_expand(pretty_name), i);
}
bucket->number_of_variables = number_of_flag_variables;
}
internal void
gen_flag_init__cont_flow(Flag_Bucket *bucket, FILE *out){
i32 max_bits = bucket->max_bits;
i32 number_of_flag_variables = (bucket->count + max_bits - 1)/max_bits;
String_Const_u8 pretty_name = bucket->pretty_name;
for (i32 i = 0; i < number_of_flag_variables; i += 1){
fprintf(out, "state_ptr->%.*s%d = 0;\n", string_expand(pretty_name), i);
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}
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bucket->number_of_variables = number_of_flag_variables;
}
internal void
gen_bound_flag_fill_lookup__cont_flow(Flag_Bucket *bucket){
i32 counter = 0;
for (Flag_Ptr_Node *node = bucket->first;
node != 0;
node = node->next, counter += 1){
Flag *flag = node->flag;
flag->base_name = bucket->pretty_name;
flag->number = counter;
flag->index = 0;
flag->value = flag->emit_flags;
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}
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}
internal void
gen_flag_fill_lookup__cont_flow(Flag_Bucket *bucket){
i32 max_bits = bucket->max_bits;
i32 counter = 0;
for (Flag_Ptr_Node *node = bucket->first;
node != 0;
node = node->next, counter += 1){
Flag *flag = node->flag;
flag->base_name = bucket->pretty_name;
flag->number = counter;
flag->index = counter/max_bits;
flag->value = (1 << (counter % max_bits));
}
}
internal void
gen_contiguous_control_flow_lexer(Arena *scratch, Token_Kind_Set tokens, Lexer_Model model, FILE *out){
Temp_Memory temp = begin_temp(scratch);
model = opt_copy_model(scratch, model);
opt_flags_set_numbers(model);
opt_states_set_numbers(model);
Input_Set cut_inputs = smi_input_set_construct_eof(scratch);
Field_Set cut_fields = smi_field_set_construct(scratch);
Condition_Set cut_set = smi_condition(scratch, cut_inputs, cut_fields);
// Split EOFs and insert at beginning
for (State *state = model.states.first;
state != 0;
state = state->next){
Transition_List *transitions = &state->transitions;
if (transitions->first->condition.kind == TransitionCaseKind_ConditionSet){
Transition *first = 0;
Transition *last = 0;
i32 count = 0;
for (Transition *trans = transitions->first, *next = 0;
trans != 0;
trans = next){
next = trans->next;
Assert(trans->condition.kind == TransitionCaseKind_ConditionSet);
Condition_Set original = trans->condition.condition_set;
Condition_Set condition_int = smi_condition_set_intersect(scratch, original, cut_set);
if (condition_int.count == 0){
zdll_push_back(first, last, trans);
count += 1;
}
else{
trans->condition.condition_set = condition_int;
zdll_push_front(first, last, trans);
count += 1;
Condition_Set condition_sub = smi_condition_set_subtract(scratch, original, cut_set);
if (condition_sub.count > 0){
Transition *new_trans = push_array(scratch, Transition, 1);
zdll_push_back(first, last, new_trans);
count += 1;
new_trans->parent_state = state;
new_trans->condition.kind = TransitionCaseKind_ConditionSet;
new_trans->condition.condition_set = condition_sub;
new_trans->activation_actions = opt_copy_action_list(scratch, trans->activation_actions);
new_trans->dst_state = trans->dst_state;
}
}
}
state->transitions.first = first;
state->transitions.last = last;
state->transitions.count = count;
}
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}
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Flag_Bucket_Set bucket_set = {};
bucket_set.buckets[FlagBindProperty_Free][FlagResetRule_AutoZero].pretty_name = string_u8_litexpr("flags_ZF");
bucket_set.buckets[FlagBindProperty_Free][FlagResetRule_AutoZero].max_bits = 32;
bucket_set.buckets[FlagBindProperty_Free][FlagResetRule_KeepState].pretty_name = string_u8_litexpr("flags_KF");
bucket_set.buckets[FlagBindProperty_Free][FlagResetRule_KeepState].max_bits = 32;
bucket_set.buckets[FlagBindProperty_Bound][FlagResetRule_AutoZero].pretty_name = string_u8_litexpr("flags_ZB");
bucket_set.buckets[FlagBindProperty_Bound][FlagResetRule_AutoZero].max_bits = 16;
bucket_set.buckets[FlagBindProperty_Bound][FlagResetRule_KeepState].pretty_name = string_u8_litexpr("flags_KB");
bucket_set.buckets[FlagBindProperty_Bound][FlagResetRule_KeepState].max_bits = 16;
for (Flag *flag = model.flags.first;
flag != 0;
flag = flag->next){
Flag_Reset_Rule reset_rule = flag->reset_rule;
Flag_Bind_Property bind_property =
(flag->emit_flags != 0)?FlagBindProperty_Bound:FlagBindProperty_Free;
Flag_Bucket *bucket = &bucket_set.buckets[bind_property][reset_rule];
Flag_Ptr_Node *node = push_array(scratch, Flag_Ptr_Node, 1);
sll_queue_push(bucket->first, bucket->last, node);
bucket->count += 1;
node->flag = flag;
}
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for (i32 i = 0; i < FlagBindProperty_COUNT; i += 1){
for (i32 j = 0; j < FlagResetRule_COUNT; j += 1){
if (i == FlagBindProperty_Bound){
gen_bound_flag_fill_lookup__cont_flow(&bucket_set.buckets[i][j]);
}
else{
gen_flag_fill_lookup__cont_flow(&bucket_set.buckets[i][j]);
}
}
}
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fprintf(out, "struct Lex_State_" LANG_NAME_CAMEL_STR "{\n");
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for (i32 i = 0; i < FlagBindProperty_COUNT; i += 1){
for (i32 j = 0; j < FlagResetRule_COUNT; j += 1){
gen_flag_declarations__cont_flow(&bucket_set.buckets[i][j], out);
}
}
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fprintf(out, "u8 *base;\n");
fprintf(out, "u8 *delim_first;\n");
fprintf(out, "u8 *delim_one_past_last;\n");
fprintf(out, "u8 *emit_ptr;\n");
fprintf(out, "u8 *ptr;\n");
fprintf(out, "u8 *opl_ptr;\n");
fprintf(out, "};\n");
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fprintf(out, "internal void\n");
fprintf(out, "lex_full_input_" LANG_NAME_LOWER_STR "_init(Lex_State_"
LANG_NAME_CAMEL_STR " *state_ptr, String_Const_u8 input){\n");
for (i32 i = 0; i < FlagBindProperty_COUNT; i += 1){
for (i32 j = 0; j < FlagResetRule_COUNT; j += 1){
gen_flag_init__cont_flow(&bucket_set.buckets[i][j], out);
}
}
fprintf(out, "state_ptr->base = input.str;\n");
fprintf(out, "state_ptr->delim_first = input.str;\n");
fprintf(out, "state_ptr->delim_one_past_last = input.str;\n");
fprintf(out, "state_ptr->emit_ptr = input.str;\n");
fprintf(out, "state_ptr->ptr = input.str;\n");
fprintf(out, "state_ptr->opl_ptr = input.str + input.size;\n");
fprintf(out, "}\n");
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fprintf(out, "internal b32\n");
fprintf(out, "lex_full_input_" LANG_NAME_LOWER_STR "_breaks("
"Arena *arena, Token_List *list, Lex_State_" LANG_NAME_CAMEL_STR " *state_ptr, u64 max){\n");
fprintf(out, "b32 result = false;\n");
fprintf(out, "u64 emit_counter = 0;\n");
fprintf(out, "Lex_State_" LANG_NAME_CAMEL_STR " state;\n");
fprintf(out, "block_copy_struct(&state, state_ptr);\n");
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for (State *state = model.states.first;
state != 0;
state = state->next){
fprintf(out, "{\n");
fprintf(out, "state_label_%d: // %.*s\n",
state->number, string_expand(state->pretty_name));
Transition_List *transitions = &state->transitions;
Transition *trans = transitions->first;
Transition_Case_Kind state_trans_kind = trans->condition.kind;
switch (state_trans_kind){
default:
{
InvalidPath;
}break;
case TransitionCaseKind_DelimMatch:
{
Transition *success_trans = trans;
Transition *failure_trans = trans->next;
Assert(failure_trans->condition.kind == TransitionCaseKind_DelimMatchFail);
fprintf(out, "u64 delim_length = state.delim_one_past_last - state.delim_first;\n");
fprintf(out, "u64 parse_length = 0;\n");
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fprintf(out, "for (;;){\n");
{
fprintf(out, "if (parse_length == delim_length){\n");
{
gen_SLOW_action_list__cont_flow(scratch, tokens, model.flags, bucket_set,
success_trans->activation_actions,
ActionContext_Normal, out);
gen_goto_dst_state__cont_flow(success_trans, ActionContext_Normal, out);
}
fprintf(out, "}\n");
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fprintf(out, "if (state.ptr == state.opl_ptr){\n");
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{
gen_SLOW_action_list__cont_flow(scratch, tokens, model.flags, bucket_set,
failure_trans->activation_actions,
ActionContext_Normal, out);
gen_goto_dst_state__cont_flow(success_trans, ActionContext_Normal, out);
}
fprintf(out, "}\n");
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fprintf(out, "if (*state.ptr == state.delim_first[parse_length]){\n");
fprintf(out, "state.ptr += 1;\n");
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fprintf(out, "parse_length += 1;\n");
fprintf(out, "}\n");
fprintf(out, "else{\n");
{
gen_SLOW_action_list__cont_flow(scratch, tokens, model.flags, bucket_set,
failure_trans->activation_actions,
ActionContext_Normal, out);
gen_goto_dst_state__cont_flow(failure_trans, ActionContext_Normal, out);
}
fprintf(out, "}\n");
}
fprintf(out, "}\n");
}break;
case TransitionCaseKind_ConditionSet:
{
{
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fprintf(out, "if (state.ptr == state.opl_ptr){\n");
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for (;
trans != 0;
trans = trans->next){
if (opt_condition_is_eof_only(trans->condition)){
Assert(trans->condition.condition_set.count == 1);
Condition_Node *node = trans->condition.condition_set.first;
fprintf(out, "if (");
gen_SLOW_field_set_check__cont_flow(node->fields, out);
fprintf(out, "){\n");
Action_Context action_ctx = ActionContext_EndOfFile;
action_ctx = gen_SLOW_action_list__cont_flow(scratch, tokens, model.flags,
bucket_set,
trans->activation_actions,
action_ctx, out);
gen_goto_dst_state__cont_flow(trans, action_ctx, out);
fprintf(out, "}\n");
}
else{
break;
}
}
fprintf(out, "}\n");
}
Grouped_Input_Handler_List group_list = opt_grouped_input_handlers(scratch, trans);
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fprintf(out, "switch (*state.ptr){\n");
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for (Grouped_Input_Handler *group = group_list.first;
group != 0;
group = group->next){
if (group == group_list.group_with_biggest_input_set){
fprintf(out, "default:\n");
}
else{
i32 input_count = group->input_count;
u8 *inputs = group->inputs;
for (i32 i = 0; i < input_count; i += 1){
fprintf(out, "case 0x%02x:", inputs[i]);
if ((i % 7) == 6 || i + 1 == input_count){
fprintf(out, "\n");
}
}
}
fprintf(out, "{\n");
for (Partial_Transition *partial = group->partial_transitions.first;
partial != 0;
partial = partial->next){
if (partial->next != 0){
fprintf(out, "if (");
gen_SLOW_field_set_check__cont_flow(partial->fields, out);
fprintf(out, "){\n");
}
{
gen_SLOW_action_list__cont_flow(scratch, tokens, model.flags, bucket_set,
partial->actions, ActionContext_Normal,
out);
gen_goto_state__cont_flow(partial->dst_state, ActionContext_Normal, out);
}
if (partial->next != 0){
fprintf(out, "}\n");
}
}
fprintf(out, "}break;\n");
}
fprintf(out, "}\n");
}break;
}
fprintf(out, "}\n");
}
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fprintf(out, "end:;\n");
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fprintf(out, "block_copy_struct(state_ptr, &state);\n");
fprintf(out, "return(result);\n");
fprintf(out, "}\n");
fprintf(out, "internal Token_List\n");
fprintf(out, "lex_full_input_" LANG_NAME_LOWER_STR "(Arena *arena, String_Const_u8 input){\n");
fprintf(out, "Lex_State_" LANG_NAME_CAMEL_STR " state = {};\n");
fprintf(out, "lex_full_input_" LANG_NAME_LOWER_STR "_init(&state, input);\n");
fprintf(out, "Token_List list = {};\n");
fprintf(out, "lex_full_input_" LANG_NAME_LOWER_STR "_breaks(arena, &list, &state, max_u64);\n");
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fprintf(out, "return(list);\n");
fprintf(out, "}\n");
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end_temp(temp);
}
////////////////////////////////
#include <stdio.h>
#include <time.h>
internal void
build_language_model(void);
internal String_Const_u8
file_read_all(Arena *arena, FILE *file){
String_Const_u8 result = {};
fseek(file, 0, SEEK_END);
result.size = ftell(file);
fseek(file, 0, SEEK_SET);
result.str = push_array(arena, u8, result.size + 1);
fread(result.str, result.size, 1, file);
result.str[result.size] = 0;
return(result);
}
int main(void){
pcg32_srandom(time(0), time(0));
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Base_Allocator *allocator = get_allocator_malloc();
sm_helper_init(allocator);
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build_language_model();
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Lexer_Primary_Context *ctx = &helper_ctx.primary_ctx;
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// NOTE(allen): Type checking
// DelimMatch only with a single catch-all fallback, no peeks.
// Remove the declaration of states and flags?
// Flag bindings are one to one
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////////////////////////////////
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// NOTE(allen): High level reorganization of state machine
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opt_set_auto_zero_flags_on_root(ctx);
opt_transfer_state_actions_to_transitions(ctx);
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////////////////////////////////
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// NOTE(allen): High level optimization
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opt_simplify_transitions(ctx);
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opt_mark_all_states_excluded(ctx);
opt_include_reachable_states(ctx->model.root);
opt_discard_all_excluded_states(ctx);
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opt_merge_redundant_transitions_in_each_state(ctx);
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opt_skip_past_thunk_states(ctx);
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opt_mark_all_states_excluded(ctx);
opt_include_reachable_states(ctx->model.root);
opt_discard_all_excluded_states(ctx);
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opt_remove_peeks_without_creating_transition_splits(ctx);
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opt_mark_all_states_excluded(ctx);
opt_include_reachable_states(ctx->model.root);
opt_discard_all_excluded_states(ctx);
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opt_remove_peeks_into_single_entry_point_states(ctx);
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opt_discard_all_excluded_states(ctx);
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opt_states_set_numbers(ctx->model);
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////////////////////////////////
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// NOTE(allen): Debug inspection of model
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#if 0
opt_flags_set_numbers(ctx->model);
debug_print_transitions(ctx);
#endif
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////////////////////////////////
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// NOTE(allen): Arrange input files and output files
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String_Const_u8 path_to_self = string_u8_litexpr(__FILE__);
path_to_self = string_remove_last_folder(path_to_self);
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String_Const_u8 hand_written_h_name = push_u8_stringf(&ctx->arena,
"%.*s4coder_lex_gen_hand_written.h",
string_expand(path_to_self));
String_Const_u8 hand_written_name = push_u8_stringf(&ctx->arena,
"%.*s4coder_lex_gen_hand_written.cpp",
string_expand(path_to_self));
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FILE *hand_written_h_file = fopen((char*)hand_written_h_name.str, "rb");
if (hand_written_h_file == 0){
printf("error: could not open 4coder_lex_gen_hand_written.h\n");
exit(1);
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}
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String_Const_u8 hand_written_h = file_read_all(&ctx->arena, hand_written_h_file);
fclose(hand_written_h_file);
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FILE *hand_written_file = fopen((char*)hand_written_name.str , "rb");
if (hand_written_file == 0){
printf("error: could not open 4coder_lex_gen_hand_written.cpp\n");
exit(1);
}
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String_Const_u8 hand_written = file_read_all(&ctx->arena, hand_written_file);
fclose(hand_written_file);
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String_Const_u8 path_to_src = string_remove_last_folder(path_to_self);
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String_Const_u8 out_h_name = push_u8_stringf(&ctx->arena, "%.*sgenerated/lexer_" LANG_NAME_LOWER_STR ".h",
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string_expand(path_to_src));
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String_Const_u8 out_cpp_name = push_u8_stringf(&ctx->arena, "%.*sgenerated/lexer_" LANG_NAME_LOWER_STR ".cpp",
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string_expand(path_to_src));
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FILE *out_h_file = fopen((char*)out_h_name.str, "wb");
if (out_h_file == 0){
printf("error: could not open output file %.*s\n", string_expand(out_h_name));
exit(1);
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}
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FILE *out_cpp_file = fopen((char*)out_cpp_name.str, "wb");
if (out_cpp_file == 0){
printf("error: could not open output file %.*s\n", string_expand(out_cpp_name));
exit(1);
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}
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////////////////////////////////
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// NOTE(allen): Code generation
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fprintf(out_h_file, "%s\n", hand_written_h.str);
gen_tokens(&ctx->arena, ctx->tokens, out_h_file);
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fprintf(out_cpp_file, "%s\n", hand_written.str);
for (Keyword_Set *set = ctx->keywords.first;
set != 0;
set = set->next){
gen_keyword_table(&ctx->arena, ctx->tokens, *set, out_cpp_file);
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}
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gen_contiguous_control_flow_lexer(&ctx->arena, ctx->tokens, ctx->model, out_cpp_file);
fclose(out_h_file);
fclose(out_cpp_file);
printf("%.*s:1:\n", string_expand(out_h_name));
printf("%.*s:1:\n", string_expand(out_cpp_name));
// NOTE(allen): Simplifying the state machine
// Isolate the state machine's parts into small L.U.T. then generate tables?
// If using L.U.T: Optimize all action lists that don't contain a "consume" action
// NOTE(allen): State machine generation
// Implementation: Control Flow
// Feature: Fully Contiguous input
//
// Implementation: L.U.T. Accelerated
//
// Feature: Spatially chunked input
// Feature: Temporally chunked input
return(0);
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}
// BOTTOM