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(*
* This Source Code Form is subject to the terms of the Mozilla Public License,
* v. 2.0. If a copy of the MPL was not distributed with this file, You can
* obtain one at https://mozilla.org/MPL/2.0/.
*)
program;
(* Stage 20 compiler. *)
type
ElnaListNode = record
next: Word
end;
ElnaList = record
first: ^ElnaListNode;
last: ^ElnaListNode
end;
ElnaLocation = record
line: Word;
column: Word
end;
ElnaPosition = record
start_location: ElnaLocation;
end_location: ElnaLocation
end;
(**
* List of intermediate representation items.
*)
ElnaInstructionModule = record
data: Word;
code: Word
end;
(* Type representation. *)
ElnaTypeKind = (primitive, enumeration, _record, pointer, array);
ElnaType = record
kind: ElnaTypeKind;
size: Word
end;
ElnaTypeEnumeration = record
kind: ElnaTypeKind;
size: Word;
members: Word;
length: Word
end;
ElnaTypeField = record
name: ElnaTypeKind;
length: Word;
field_type: ^ElnaType
end;
ElnaTypeRecord = record
kind: ElnaTypeKind;
size: Word;
members: Word;
length: Word
end;
ElnaTypePointer = record
kind: ElnaTypeKind;
size: Word;
base: Word
end;
ElnaTypeArray = record
kind: ElnaTypeKind;
size: Word;
base: Word;
length: Word
end;
(* Abstract syntax tree nodes. *)
ElnaTreeKind = (
integer_literal,
string_literal,
character_literal,
boolean_literal,
variable_expression,
field_access_expression,
dereference_expression,
unary_expression,
binary_expression,
call,
goto_statement,
label_declaration,
return_statement,
assign_statement,
if_statement,
procedure_declaration,
variable_declaration,
enumeration_type_expression,
named_type_expression,
type_declaration,
module_declaration,
record_type_expression,
pointer_type_expression,
array_type_expression,
null,
trait_expression,
array_access_expression
);
ElnaTreeNode = record
kind: ElnaTreeKind
end;
ElnaTreeExpression = record
kind: ElnaTreeKind;
type_decoration: ^ElnaType
end;
ElnaTreeIntegerLiteral = record
kind: ElnaTreeKind;
type_decoration: ^ElnaType;
value: Word
end;
ElnaTreeCharacterLiteral = record
kind: ElnaTreeKind;
type_decoration: ^ElnaType;
value: Word;
length: Word
end;
ElnaTreeNilLiteral = record
kind: ElnaTreeKind;
type_decoration: ^ElnaType
end;
ElnaTreeBooleanLiteral = record
kind: ElnaTreeKind;
type_decoration: ^ElnaType;
value: Word
end;
ElnaTreeVariableExpression = record
kind: ElnaTreeKind;
type_decoration: ^ElnaType;
name: Word;
length: Word
end;
ElnaTreeStringLiteral = record
kind: ElnaTreeKind;
type_decoration: ^ElnaType;
value: Word;
length: Word
end;
ElnaTreeDereferenceExpression = record
kind: ElnaTreeKind;
type_decoration: ^ElnaType;
pointer: Word
end;
ElnaTreeBinaryExpression = record
kind: ElnaTreeKind;
type_decoration: ^ElnaType;
lhs: Word;
rhs: Word;
operator: Word
end;
ElnaTreeUnaryExpression = record
kind: ElnaTreeKind;
type_decoration: ^ElnaType;
operand: Word;
operator: Word
end;
(**
* All statements are chained into a list. Next contains a pointer to the next
* statement in the statement list.
*)
ElnaTreeStatement = record
kind: ElnaTreeKind;
next: Word
end;
ElnaTreeIfStatement = record
kind: ElnaTreeKind;
next: Word;
conditionals: Word;
_else: ^ElnaTreeStatement
end;
ElnaTreeGotoStatement = record
kind: ElnaTreeKind;
next: Word;
label: Word;
length: Word
end;
ElnaTreeAssignStatement = record
kind: ElnaTreeKind;
next: Word;
assignee: Word;
assignment: ^ElnaTreeExpression
end;
ElnaTreeReturnStatement = record
kind: ElnaTreeKind;
next: Word;
returned: ^ElnaTreeExpression
end;
ElnaTreeLabelDeclaration = record
kind: ElnaTreeKind;
next: Word;
label: Word;
length: Word
end;
ElnaTreeFieldAccessExpression = record
kind: ElnaTreeKind;
type_decoration: ^ElnaType;
aggregate: Word;
field: Word;
length: Word
end;
ElnaTreeArrayAccessExpression = record
kind: ElnaTreeKind;
type_decoration: ^ElnaType;
array: Word;
index: Word
end;
ElnaTreeEnumerationTypeExpression = record
kind: ElnaTreeKind;
members: Word;
length: Word
end;
ElnaTreeRecordTypeExpression = record
kind: ElnaTreeKind;
members: Word;
length: Word
end;
ElnaTreeNamedTypeExpression = record
kind: ElnaTreeKind;
name: Word;
length: Word
end;
ElnaTreePointerTypeExpression = record
kind: ElnaTreeKind;
base: ^ElnaTreeNode
end;
ElnaTreeArrayTypeExpression = record
kind: ElnaTreeKind;
base: ^ElnaTreeNode;
length: Word
end;
ElnaTreeTraitExpression = record
kind: ElnaTreeKind;
name: Word;
length: Word;
argument: Word
end;
(**
* Conditional statements is a list of pairs: condition and statements.
* Used for example to represent if and elsif blocks with beloning statements.
*)
ElnaTreeConditionalStatements = record
condition: ^ElnaTreeExpression;
statements: ^ElnaTreeStatement;
next: Word
end;
ElnaTreeDeclaration = record
kind: ElnaTreeKind;
next: Word;
name: Word;
length: Word
end;
ElnaTreeModuleDeclaration = record
kind: ElnaTreeKind;
types: Word;
globals: Word;
procedures: Word
end;
ElnaTreeProcedureDeclaration = record
kind: ElnaTreeKind;
next: Word;
name: Word;
length: Word;
body: Word;
temporaries: Word;
parameters: Word;
return_type: ^ElnaTreeNode
end;
ElnaTreeTypeDeclaration = record
kind: ElnaTreeKind;
next: Word;
name: Word;
length: Word;
_type: Word
end;
ElnaTreeVariableDeclaration = record
kind: ElnaTreeKind;
next: Word;
name: Word;
length: Word;
_type: Word
end;
ElnaTreeExpressionList = record
expression: ^ElnaTreeBinaryExpression;
next: Word
end;
ElnaTreeCall = record
kind: ElnaTreeKind;
next: Word;
callee: ^ElnaTreeVariableExpression;
arguments: ^ElnaTreeExpressionList;
count: Word
end;
(* Symbol table information. *)
ElnaSymbolEntry = record
name: Word;
length: Word;
symbol_info: Word
end;
ElnaSymbolTable = record
count: Word;
symbols: ^ElnaSymbolEntry
end;
ElnaSymbolInfoKind = (type_info, parameter_info, temporary_info, procedure_info);
ElnaSymbolInfo = record
kind: ElnaSymbolInfoKind
end;
ElnaSymbolTypeInfo = record
kind: ElnaSymbolInfoKind;
_type: ^ElnaType
end;
(* ElnaSymbolTemporaryInfo.offset is 0 or 1, 0: local variable, 1: pseudo register *)
ElnaSymbolTemporaryInfo = record
kind: ElnaSymbolInfoKind;
attr: Word;
variable_type: ^ElnaType
end;
ElnaSymbolProcedureInfo = record
kind: ElnaSymbolInfoKind;
symbol_table: ^ElnaSymbolTable
end;
ElnaError = record
next: Word
end;
ElnaLexerAction = (none, accumulate, skip, single, eof, finalize, composite, key_id, integer, delimited);
ElnaLexerState = (
start,
colon,
identifier,
decimal,
leading_zero,
greater,
minus,
left_paren,
less,
dot,
comment,
closing_comment,
character,
character_escape,
string,
string_escape,
number_sign,
trait,
finish
);
ElnaLexerTransition = record
action: ElnaLexerAction;
next_state: ElnaLexerState
end;
(**
* Classification table assigns each possible character to a group (class). All
* characters of the same group a handled equivalently.
*)
ElnaLexerClass = (
invalid,
digit,
alpha,
space,
colon,
equals,
left_paren,
right_paren,
asterisk,
backslash,
single,
hex,
zero,
x,
eof,
dot,
minus,
single_quote,
double_quote,
greater,
less,
other,
number_sign
);
ElnaLexerKind = (
identifier,
_const,
_var,
_proc,
_type,
_begin,
_end,
_if,
_then,
_else,
_elsif,
_while,
_do,
_extern,
_record,
boolean,
null,
and,
_or,
_xor,
pipe,
not,
_return,
_module,
_program,
_import,
_cast,
_defer,
_case,
_of,
trait,
left_paren,
right_paren,
left_square,
right_square,
shift_left,
shift_right,
greater_equal,
less_equal,
greater_than,
less_than,
not_equal,
equals,
semicolon,
dot,
comma,
plus,
arrow,
minus,
multiplication,
division,
remainder,
assignment,
colon,
hat,
at,
comment,
string,
character,
integer,
word,
_goto,
eof
);
ElnaLexerToken = record
kind: ElnaLexerKind;
start: Word;
length: Word;
position: ElnaPosition
end;
ElnaLexerCursor = record
state: ElnaLexerState;
start: Word;
finish: Word;
token: ^ElnaLexerToken;
position: ElnaPosition
end;
ElnaTacOperator = (
get_address,
add,
load,
store,
proc_call,
copy,
subtract,
divide,
remainder,
multiply,
_xor,
_or,
and,
less_than,
greater_than,
less_or_equal,
greater_or_equal,
equal,
not_equal,
negate,
complement,
jump,
jump_if_zero,
jump_if_not_zero,
label,
_return,
nop
);
ElnaTacKind = (list, immediate, symbol, pseudo);
ElnaTacOperand = record
kind: ElnaTacKind;
value: Word;
length: Word
end;
ElnaTacInstruction = record
next: Word;
operator: ElnaTacOperator;
operands: [3]ElnaTacOperand
end;
ElnaTacProcedure = record
next: Word;
name: Word;
length: Word;
body: ElnaList;
parameters: Word;
count: Word;
symbol_table: ^ElnaSymbolTable
end;
ElnaTacStaticVariable = record
next: Word;
name: Word;
length: Word;
body: Word
end;
ElnaRtlOperator = (
li,
la,
add,
addi,
lw,
sw,
jal,
move,
sub,
div,
rem,
mul,
_xor,
_or,
and,
seqz,
snez,
slt,
xori,
neg,
not,
j,
beqz,
bnez,
label,
allocate_stack,
ret,
nop
);
ElnaRtlKind = (register, immediate, symbol, pseudo, offset, pseudo_mem);
ElnaRtlOperand = record
kind: ElnaRtlKind;
value: Word;
length: Word
end;
ElnaRtlStaticVariable = record
next: Word;
name: Word;
length: Word;
body: Word
end;
ElnaRtlProcedure = record
next: Word;
name: Word;
length: Word;
body: ElnaList;
variable_map: ^ElnaSymbolTable
end;
ElnaRtlInstruction = record
next: Word;
operator: ElnaRtlOperator;
operands: [3]ElnaRtlOperand
end;
ElnaRtlRegister = (
zero,
ra,
sp,
gp,
tp,
t0,
t1,
t2,
s0,
s1,
a0,
a1,
a2,
a3,
a4,
a5,
a6,
a7,
s2,
s3,
s4,
s5,
s6,
s7,
s8,
s9,
s10,
s11,
t3,
t4,
t5,
t6
);
ElnaRtlTypeKind = (long_word, byte_array);
ElnaRtlType = record
kind: ElnaRtlTypeKind;
size: Word
end;
ElnaRtlTypeWord = record
kind: ElnaRtlTypeKind;
size: Word
end;
ElnaRtlTypeByteArray = record
kind: ElnaRtlTypeKind;
size: Word
end;
ElnaRtlInfo = record
counter: Word;
rtl_type: ^ElnaRtlType;
allocated: Word
end;
var
symbol_table_global: [1024]Word;
compiler_strings: [1024]Word;
classification: [256]Word;
(**
* Lexer state is saved after the transition tables.
* Each transition table entry is 8 bytes long. The table has 19 rows (transition states)
* and 23 columns (character classes), so 3496 = 8 * 19 * 23.
*)
transition_table: [19][23]ElnaLexerTransition;
word_type: ^ElnaType;
source_code: Word;
compiler_strings_position: Word;
compiler_strings_length: Word;
label_counter: Word;
temporary_variable_counter: Word;
pseudo_counter: Word;
(**
* Calculates and returns the string token length between quotes, including the
* escaping slash characters.
*
* Parameters:
* string - String token pointer.
*
* Returns the length in a0.
*)
proc _string_length(string: Word);
var
counter: Word;
current_byte: Word;
begin
(* Reset the counter. *)
counter := 0;
.string_length_loop;
string := string + 1;
current_byte := _load_byte(string);
if current_byte <> '"' then
counter := counter + 1;
goto string_length_loop
end;
return counter
end;
(**
* Adds a string to the global, read-only string storage.
*
* Parameters:
* string - String token.
*
* Returns the offset from the beginning of the storage to the new string in a0.
*)
proc _add_string(string: Word);
var
contents: Word;
result: Word;
current_byte: Word;
begin
contents := string + 1;
result := compiler_strings_length;
.add_string_loop;
current_byte := _load_byte(contents);
if current_byte <> '"' then
_store_byte(current_byte, compiler_strings_position);
compiler_strings_position := compiler_strings_position + 1;
contents := contents + 1;
if current_byte <> '\\' then
compiler_strings_length := compiler_strings_length + 1
end;
goto add_string_loop
end;
return result
end;
(**
* Writes to the standard output.
*
* Parameters:
* buffer - Buffer.
* size - Buffer length.
*)
proc _write_s(buffer: Word, size: Word);
begin
write(1, buffer, size)
end;
(**
* Writes a number to the standard output.
*
* Parameters:
* number - Whole number.
*)
proc _write_i(number: Word);
begin
printf("%i\0", number);
fflush(nil)
end;
(**
* Writes a character from a0 into the standard output.
*
* Parameters:
* character - Character to write.
*)
proc _write_c(character: Word);
begin
write(1, @character, 1)
end;
(**
* Write null terminated string.
*
* Parameters:
* string - String.
*)
proc _write_z(string: Word);
begin
printf("%s\0", string);
fflush(nil)
end;
(**
* Detects if the passed character is a 7-bit alpha character or an underscore.
*
* Paramters:
* character - Tested character.
*
* Sets a0 to 1 if the character is an alpha character or underscore, sets it to 0 otherwise.
*)
proc _is_alpha(character: Word);
var
is_underscore: Word;
begin
is_underscore := character = '_';
return isalpha(character) or is_underscore
end;
proc _is_alnum(character: Word);
return _is_alpha(character) or isdigit(character)
end;
proc elna_list_initialize(list: ^ElnaList);
begin
list^.first := nil;
list^.last := nil
end;
(**
* Appends a new element to the end of the list.
*)
proc elna_list_append(list: ^ElnaList, element: ^ElnaListNode);
begin
if element <> nil then
if list^.first = nil then
list^.first := element
else
list^.last^.next := element
end;
list^.last := element
end;
return element
end;
(**
* Prepends a new element to the beginning of the given list.
*)
proc elna_list_prepend(list: ^ElnaList, element: ^ElnaListNode);
begin
element^.next := list^.first;
list^.first := element;
if list^.last = nil then
list^.last := element
end
end;
(**
* Inserts a new element after an existing one into the given list.
*)
proc elna_list_insert(list: ^ElnaList, existing: ^ElnaListNode, new: ^ElnaListNode);
begin
if existing^.next = nil then
list^.last := new
else
new^.next := existing^.next
end;
existing^.next := new
end;
proc elna_tac_generate_pseudo(operand_type: Word, operand_value: Word, operand_length: Word, symbol_table: ^ElnaSymbolTable);
var
buffer: Word;
temporary_info: ^ElnaSymbolTemporaryInfo;
begin
pseudo_counter := pseudo_counter + 1;
buffer := malloc(7);
sprintf(buffer, "$a%i\0", pseudo_counter);
operand_type^ := ElnaTacKind.pseudo;
operand_value^ := buffer;
operand_length^ := strlen(buffer);
temporary_info := _temporary_info_create(1, word_type);
elna_symbol_table_enter(symbol_table, buffer, operand_length^, temporary_info)
end;
proc elna_tac_instruction_set_operand(this: ^ElnaTacInstruction, n: Word, operand_type: Word, operand_value: Word, operand_length: Word);
begin
this^.operands[n].kind := operand_type;
this^.operands[n].value := operand_value;
this^.operands[n].length := operand_length
end;
proc elna_tac_instruction_create(kind: Word);
var
result: ^ElnaTacInstruction;
begin
result := malloc(#size(ElnaTacInstruction));
result^.operator := kind;
result^.next := nil;
return result
end;
proc elna_rtl_instruction_create(kind: Word);
var
result: ^ElnaRtlInstruction;
begin
result := malloc(#size(ElnaRtlInstruction));
result^.operator := kind;
result^.next := nil;
return result
end;
proc elna_rtl_instruction_set_operand(this: ^ElnaRtlInstruction, n: Word, operand_type: Word, operand_value: Word, operand_length: Word);
begin
this^.operands[n].kind := operand_type;
this^.operands[n].value := operand_value;
this^.operands[n].length := operand_length
end;
(**
* Loads or moves the value from a TAC operand into the given register.
*)
proc elna_rtl_load_operand_value(instructions: ^ElnaList, operand: ^ElnaTacOperand,
into: ElnaRtlRegister, variable_map: ^ElnaSymbolTable);
var
instruction: ^ElnaRtlInstruction;
pseudo_symbol: ^ElnaRtlInfo;
begin
if operand^.kind = ElnaTacKind.immediate then
instruction := elna_rtl_instruction_create(ElnaRtlOperator.li);
elna_rtl_instruction_set_operand(instruction, 1, ElnaRtlKind.register, into, 0);
elna_rtl_instruction_set_operand(instruction, 2, ElnaRtlKind.immediate, operand^.value, operand^.length);
elna_list_append(instructions, instruction)
elsif operand^.kind = ElnaTacKind.symbol then
instruction := elna_rtl_instruction_create(ElnaRtlOperator.la);
elna_rtl_instruction_set_operand(instruction, 1, ElnaRtlKind.register, into, 0);
elna_rtl_instruction_set_operand(instruction, 2, ElnaRtlKind.symbol, operand^.value, operand^.length);
elna_list_append(instructions, instruction);
instruction := elna_rtl_instruction_create(ElnaRtlOperator.lw);
elna_rtl_instruction_set_operand(instruction, 1, ElnaRtlKind.register, into, 0);
elna_rtl_instruction_set_operand(instruction, 2, ElnaRtlKind.offset, into, 0);
elna_list_append(instructions, instruction)
elsif operand^.kind = ElnaTacKind.pseudo then
pseudo_symbol := elna_symbol_table_lookup(variable_map, operand^.value, operand^.length);
if pseudo_symbol = nil then
instruction := elna_rtl_instruction_create(ElnaRtlOperator.la);
elna_rtl_instruction_set_operand(instruction, 1, ElnaRtlKind.register, into, 0);
elna_rtl_instruction_set_operand(instruction, 2, ElnaRtlKind.symbol, operand^.value, operand^.length);
elna_list_append(instructions, instruction);
instruction := elna_rtl_instruction_create(ElnaRtlOperator.lw);
elna_rtl_instruction_set_operand(instruction, 1, ElnaRtlKind.register, into, 0);
elna_rtl_instruction_set_operand(instruction, 2, ElnaRtlKind.offset, into, 0)
else
instruction := elna_rtl_instruction_create(ElnaRtlOperator.move);
elna_rtl_instruction_set_operand(instruction, 1, ElnaRtlKind.register, into, 0);
elna_rtl_instruction_set_operand(instruction, 2, ElnaRtlKind.pseudo, operand^.value, operand^.length)
end;
elna_list_append(instructions, instruction)
end
end;
proc elna_rtl_operand_value(instructions: ^ElnaList, tac_operand: ^ElnaTacOperand, variable_map: ^ElnaSymbolTable, rtl_operand: ^ElnaRtlOperand);
var
instruction: ^ElnaRtlInstruction;
pseudo_symbol: ^ElnaRtlInfo;
begin
rtl_operand^.kind := ElnaRtlKind.pseudo;
if tac_operand^.kind = ElnaTacKind.immediate then
elna_rtl_generate_pseudo(@rtl_operand^.value, @rtl_operand^.length, variable_map);
instruction := elna_rtl_instruction_create(ElnaRtlOperator.li);
elna_rtl_instruction_set_operand(instruction, 1, rtl_operand^.kind, rtl_operand^.value, rtl_operand^.length);
elna_rtl_instruction_set_operand(instruction, 2, ElnaRtlKind.immediate, tac_operand^.value, tac_operand^.length);
elna_list_append(instructions, instruction)
elsif tac_operand^.kind = ElnaTacKind.symbol then
elna_rtl_generate_pseudo(@rtl_operand^.value, @rtl_operand^.length, variable_map);
instruction := elna_rtl_instruction_create(ElnaRtlOperator.la);
elna_rtl_instruction_set_operand(instruction, 1, rtl_operand^.kind, rtl_operand^.value, rtl_operand^.length);
elna_rtl_instruction_set_operand(instruction, 2, ElnaRtlKind.symbol, tac_operand^.value, tac_operand^.length);
elna_list_append(instructions, instruction);
instruction := elna_rtl_instruction_create(ElnaRtlOperator.lw);
elna_rtl_instruction_set_operand(instruction, 1, rtl_operand^.kind, rtl_operand^.value, rtl_operand^.length);
elna_rtl_instruction_set_operand(instruction, 2, rtl_operand^.kind, rtl_operand^.value, rtl_operand^.length);
elna_list_append(instructions, instruction)
elsif tac_operand^.kind = ElnaTacKind.pseudo then
pseudo_symbol := elna_symbol_table_lookup(variable_map, tac_operand^.value, tac_operand^.length);
if pseudo_symbol = nil then
elna_rtl_generate_pseudo(@rtl_operand^.value, @rtl_operand^.length, variable_map);
instruction := elna_rtl_instruction_create(ElnaRtlOperator.la);
elna_rtl_instruction_set_operand(instruction, 1, rtl_operand^.kind, rtl_operand^.value, rtl_operand^.length);
elna_rtl_instruction_set_operand(instruction, 2, ElnaRtlKind.symbol, tac_operand^.value, tac_operand^.length);
elna_list_append(instructions, instruction);
instruction := elna_rtl_instruction_create(ElnaRtlOperator.lw);
elna_rtl_instruction_set_operand(instruction, 1, rtl_operand^.kind, rtl_operand^.value, rtl_operand^.length);
elna_rtl_instruction_set_operand(instruction, 2, rtl_operand^.kind, rtl_operand^.value, rtl_operand^.length);
elna_list_append(instructions, instruction)
else
rtl_operand^.value := tac_operand^.value;
rtl_operand^.length := tac_operand^.length
end
end
end;
proc elna_rtl_binary_arithmetic(instructions: ^ElnaList, tac_instruction: ^ElnaTacInstruction,
operation: ElnaRtlOperator, variable_map: ^ElnaSymbolTable) -> ^ElnaRtlInstruction;
var
result: ^ElnaRtlInstruction;
rtl_operand: ElnaRtlOperand;
begin
result := elna_rtl_instruction_create(operation);
elna_rtl_copy_operand(instructions, @tac_instruction^.operands[1], 1, result, variable_map);
elna_rtl_operand_value(instructions, @tac_instruction^.operands[2], variable_map, @rtl_operand);
elna_rtl_instruction_set_operand(result, 2, rtl_operand.kind, rtl_operand.value, rtl_operand.length);
elna_rtl_operand_value(instructions, @tac_instruction^.operands[3], variable_map, @rtl_operand);
elna_rtl_instruction_set_operand(result, 3, rtl_operand.kind, rtl_operand.value, rtl_operand.length);
elna_list_append(instructions, result);
return result
end;
proc elna_rtl_binary_equality(instructions: ^ElnaList, tac_instruction: ^ElnaTacInstruction,
instruction_kind: ElnaRtlOperator, variable_map: ^ElnaSymbolTable);
var
instruction: ^ElnaRtlInstruction;
target_operand: ^ElnaRtlOperand;
begin
instruction := elna_rtl_binary_arithmetic(instructions, tac_instruction, ElnaRtlOperator._xor, variable_map);
target_operand := @instruction^.operands[1];
instruction := elna_rtl_instruction_create(instruction_kind);
elna_rtl_instruction_set_operand(instruction, 1, target_operand^.kind, target_operand^.value, target_operand^.length);
elna_rtl_instruction_set_operand(instruction, 2, target_operand^.kind, target_operand^.value, target_operand^.length);
elna_list_append(instructions, instruction)
end;
proc elna_rtl_set_less_than(instructions: ^ElnaList, tac_instruction: ^ElnaTacInstruction,
lhs: Word, rhs: Word, variable_map: ^ElnaSymbolTable) -> ^ElnaRtlInstruction;
var
slt_instruction: ^ElnaRtlInstruction;
rtl_operand: ElnaRtlOperand;
begin
slt_instruction := elna_rtl_instruction_create(ElnaRtlOperator.slt);
elna_rtl_copy_operand(instructions, @tac_instruction^.operands[1], 1, slt_instruction, variable_map);
elna_rtl_operand_value(instructions, @tac_instruction^.operands[2], variable_map, @rtl_operand);
elna_rtl_instruction_set_operand(slt_instruction, lhs, rtl_operand.kind, rtl_operand.value, rtl_operand.length);
elna_rtl_operand_value(instructions, @tac_instruction^.operands[3], variable_map, @rtl_operand);
elna_rtl_instruction_set_operand(slt_instruction, rhs, rtl_operand.kind, rtl_operand.value, rtl_operand.length);
elna_list_append(instructions, slt_instruction);
return slt_instruction
end;
proc elna_rtl_binary_comparison(instructions: ^ElnaList, tac_instruction: ^ElnaTacInstruction,
lhs: Word, rhs: Word, variable_map: ^ElnaSymbolTable);
var
slt_instruction: ^ElnaRtlInstruction;
xor_instruction: ^ElnaRtlInstruction;
rtl_operand: ElnaRtlOperand;
begin
slt_instruction := elna_rtl_set_less_than(instructions, tac_instruction, lhs, rhs, variable_map);
xor_instruction := elna_rtl_instruction_create(ElnaRtlOperator.xori);
elna_rtl_instruction_set_operand(xor_instruction, 1, slt_instruction^.operands[1].kind,
slt_instruction^.operands[1].value, slt_instruction^.operands[1].length);
elna_rtl_instruction_set_operand(xor_instruction, 2, slt_instruction^.operands[1].kind,
slt_instruction^.operands[1].value, slt_instruction^.operands[1].length);
elna_rtl_instruction_set_operand(xor_instruction, 3, ElnaRtlKind.immediate, 1, 0);
elna_list_append(instructions, xor_instruction)
end;
proc elna_rtl_copy_operand(instructions: ^ElnaList, tac_operand: ^ElnaTacOperand, number: Word,
rtl_instruction: ^ElnaRtlInstruction, variable_map: ^ElnaSymbolTable);
var
operand_length: Word;
operand_value: Word;
pseudo_symbol: ^ElnaRtlInfo;
instruction: ^ElnaRtlInstruction;
begin
operand_value := tac_operand^.value;
operand_length := tac_operand^.length;
if tac_operand^.kind = ElnaTacKind.immediate then
elna_rtl_instruction_set_operand(rtl_instruction, number, ElnaRtlKind.immediate, operand_value, operand_length)
elsif tac_operand^.kind = ElnaTacKind.symbol then
elna_rtl_instruction_set_operand(rtl_instruction, number, ElnaRtlKind.symbol, operand_value, operand_length)
elsif tac_operand^.kind = ElnaTacKind.pseudo then
pseudo_symbol := elna_symbol_table_lookup(variable_map, operand_value, operand_length);
if pseudo_symbol = nil then
pseudo_symbol := elna_rtl_generate_pseudo(@operand_value, @operand_length, variable_map);
instruction := elna_rtl_instruction_create(ElnaRtlOperator.la);
elna_rtl_instruction_set_operand(instruction, 1, ElnaRtlKind.pseudo, operand_value, operand_length);
elna_rtl_instruction_set_operand(instruction, 2, ElnaRtlKind.symbol, tac_operand^.value, tac_operand^.length);
elna_list_append(instructions, instruction)
end;
elna_rtl_instruction_set_operand(rtl_instruction, number, ElnaRtlKind.pseudo, operand_value, operand_length)
end
end;
proc elna_rtl_conditional_jump(instructions: ^ElnaList, tac_instruction: ^ElnaTacInstruction,
condition: ElnaRtlOperator, variable_map: ^ElnaSymbolTable);
var
instruction: ^ElnaRtlInstruction;
rtl_operand: ElnaRtlOperand;
begin
instruction := elna_rtl_instruction_create(condition);
elna_rtl_operand_value(instructions, @tac_instruction^.operands[1], variable_map, @rtl_operand);
elna_rtl_instruction_set_operand(instruction, 1, rtl_operand.kind, rtl_operand.value, rtl_operand.length);
elna_rtl_instruction_set_operand(instruction, 2, ElnaRtlKind.symbol,
tac_instruction^.operands[2].value, tac_instruction^.operands[2].length);
elna_list_append(instructions, instruction)
end;
proc elna_rtl_unary(instructions: ^ElnaList, tac_instruction: ^ElnaTacInstruction, rtl_operator: ElnaRtlOperator, variable_map: ^ElnaSymbolTable);
var
instruction: ^ElnaRtlInstruction;
rtl_operand: ElnaRtlOperand;
begin
elna_rtl_operand_value(instructions, @tac_instruction^.operands[2], variable_map, @rtl_operand);
instruction := elna_rtl_instruction_create(rtl_operator);
elna_rtl_copy_operand(instructions, @tac_instruction^.operands[1], 1, instruction, variable_map);
elna_rtl_instruction_set_operand(instruction, 2, rtl_operand.kind, rtl_operand.value, rtl_operand.length);
elna_list_append(instructions, instruction)
end;
proc elna_rtl_call(instructions: ^ElnaList, tac_instruction: ^ElnaTacInstruction, variable_map: ^ElnaSymbolTable);
var
argument_count: Word;
current_argument: ^ElnaTacOperand;
instruction: ^ElnaRtlInstruction;
current_register: Word;
variable_info: ^ElnaRtlInfo;
begin
current_register := 0;
current_argument := tac_instruction^.operands[2].value;
argument_count := tac_instruction^.operands[2].length;
.elna_rtl_call_loop;
if argument_count > 0 then
argument_count := argument_count - 1;
elna_rtl_load_operand_value(instructions, current_argument, ElnaRtlRegister.a0 + current_register, variable_map);
current_argument := current_argument + #size(ElnaTacOperand);
current_register := current_register + 1;
goto elna_rtl_call_loop
end;
instruction := elna_rtl_instruction_create(ElnaRtlOperator.jal);
elna_rtl_instruction_set_operand(instruction, 1, ElnaRtlKind.symbol,
tac_instruction^.operands[1].value, tac_instruction^.operands[1].length);
elna_list_append(instructions, instruction);
instruction := elna_rtl_instruction_create(ElnaRtlOperator.move);
elna_rtl_instruction_set_operand(instruction, 1, tac_instruction^.operands[3].kind,
tac_instruction^.operands[3].value, tac_instruction^.operands[3].length);
elna_rtl_instruction_set_operand(instruction, 2, ElnaRtlKind.register, ElnaRtlRegister.a0, 0);
elna_list_append(instructions, instruction)
end;
proc elna_rtl_store(instructions: ^ElnaList, tac_instruction: ^ElnaTacInstruction, variable_map: ^ElnaSymbolTable);
var
instruction: ^ElnaRtlInstruction;
rtl_operand: ElnaRtlOperand;
begin
elna_rtl_operand_value(instructions, @tac_instruction^.operands[1], variable_map, @rtl_operand);
instruction := elna_rtl_instruction_create(ElnaRtlOperator.sw);
elna_rtl_instruction_set_operand(instruction, 1, rtl_operand.kind, rtl_operand.value, rtl_operand.length);
elna_rtl_instruction_set_operand(instruction, 2, ElnaRtlKind.pseudo,
tac_instruction^.operands[2].value, tac_instruction^.operands[2].length);
elna_list_append(instructions, instruction)
end;
proc elna_rtl_load(instructions: ^ElnaList, tac_instruction: ^ElnaTacInstruction, variable_map: ^ElnaSymbolTable);
var
instruction: ^ElnaRtlInstruction;
rtl_operand: ElnaRtlOperand;
begin
elna_rtl_operand_value(instructions, @tac_instruction^.operands[1], variable_map, @rtl_operand);
instruction := elna_rtl_instruction_create(ElnaRtlOperator.lw);
elna_rtl_instruction_set_operand(instruction, 2, rtl_operand.kind, rtl_operand.value, rtl_operand.length);
elna_rtl_instruction_set_operand(instruction, 1, ElnaRtlKind.pseudo,
tac_instruction^.operands[2].value, tac_instruction^.operands[2].length);
elna_list_append(instructions, instruction)
end;
proc elna_rtl_instruction(instructions: ^ElnaList, tac_instruction: ^ElnaTacInstruction, variable_map: ^ElnaSymbolTable);
var
instruction: ^ElnaRtlInstruction;
pseudo_symbol: ^ElnaRtlInfo;
rtl_operand: ElnaRtlOperand;
begin
if tac_instruction^.operator = ElnaTacOperator.get_address then
pseudo_symbol := elna_symbol_table_lookup(variable_map,
tac_instruction^.operands[2].value, tac_instruction^.operands[2].length);
instruction := elna_rtl_instruction_create(ElnaRtlOperator.la);
elna_rtl_copy_operand(instructions, @tac_instruction^.operands[1], 1, instruction, variable_map);
if pseudo_symbol = nil then
elna_rtl_instruction_set_operand(instruction, 2, ElnaRtlKind.symbol,
tac_instruction^.operands[2].value, tac_instruction^.operands[2].length)
else
elna_rtl_instruction_set_operand(instruction, 2, ElnaRtlKind.pseudo,
tac_instruction^.operands[2].value, tac_instruction^.operands[2].length)
end;
elna_list_append(instructions, instruction)
elsif tac_instruction^.operator = ElnaTacOperator.add then
elna_rtl_binary_arithmetic(instructions, tac_instruction, ElnaRtlOperator.add, variable_map)
elsif tac_instruction^.operator = ElnaTacOperator.load then
elna_rtl_load(instructions, tac_instruction, variable_map)
elsif tac_instruction^.operator = ElnaTacOperator.store then
elna_rtl_store(instructions, tac_instruction, variable_map)
elsif tac_instruction^.operator = ElnaTacOperator.proc_call then
elna_rtl_call(instructions, tac_instruction, variable_map)
elsif tac_instruction^.operator = ElnaTacOperator.subtract then
elna_rtl_binary_arithmetic(instructions, tac_instruction, ElnaRtlOperator.sub, variable_map)
elsif tac_instruction^.operator = ElnaTacOperator.multiply then
elna_rtl_binary_arithmetic(instructions, tac_instruction, ElnaRtlOperator.mul, variable_map)
elsif tac_instruction^.operator = ElnaTacOperator.divide then
elna_rtl_binary_arithmetic(instructions, tac_instruction, ElnaRtlOperator.div, variable_map)
elsif tac_instruction^.operator = ElnaTacOperator.remainder then
elna_rtl_binary_arithmetic(instructions, tac_instruction, ElnaRtlOperator.rem, variable_map)
elsif tac_instruction^.operator = ElnaTacOperator._xor then
elna_rtl_binary_arithmetic(instructions, tac_instruction, ElnaRtlOperator._xor, variable_map)
elsif tac_instruction^.operator = ElnaTacOperator._or then
elna_rtl_binary_arithmetic(instructions, tac_instruction, ElnaRtlOperator._or, variable_map)
elsif tac_instruction^.operator = ElnaTacOperator.and then
elna_rtl_binary_arithmetic(instructions, tac_instruction, ElnaRtlOperator.and, variable_map)
elsif tac_instruction^.operator = ElnaTacOperator.less_than then
elna_rtl_set_less_than(instructions, tac_instruction, 2, 3, variable_map)
elsif tac_instruction^.operator = ElnaTacOperator.greater_than then
elna_rtl_set_less_than(instructions, tac_instruction, 3, 2, variable_map)
elsif tac_instruction^.operator = ElnaTacOperator.less_or_equal then
elna_rtl_binary_comparison(instructions, tac_instruction, 3, 2, variable_map)
elsif tac_instruction^.operator = ElnaTacOperator.greater_or_equal then
elna_rtl_binary_comparison(instructions, tac_instruction, 2, 3, variable_map)
elsif tac_instruction^.operator = ElnaTacOperator.equal then
elna_rtl_binary_equality(instructions, tac_instruction, ElnaRtlOperator.seqz, variable_map)
elsif tac_instruction^.operator = ElnaTacOperator.not_equal then
elna_rtl_binary_equality(instructions, tac_instruction, ElnaRtlOperator.snez, variable_map)
elsif tac_instruction^.operator = ElnaTacOperator.negate then
elna_rtl_unary(instructions, tac_instruction, ElnaRtlOperator.neg, variable_map)
elsif tac_instruction^.operator = ElnaTacOperator.complement then
elna_rtl_unary(instructions, tac_instruction, ElnaRtlOperator.not, variable_map)
elsif tac_instruction^.operator = ElnaTacOperator.jump then
instruction := elna_rtl_instruction_create(ElnaRtlOperator.j);
elna_rtl_instruction_set_operand(instruction, 1, ElnaRtlKind.symbol,
tac_instruction^.operands[1].value, tac_instruction^.operands[1].length);
elna_list_append(instructions, instruction)
elsif tac_instruction^.operator = ElnaTacOperator.jump_if_zero then
elna_rtl_conditional_jump(instructions, tac_instruction, ElnaRtlOperator.beqz, variable_map)
elsif tac_instruction^.operator = ElnaTacOperator.jump_if_not_zero then
elna_rtl_conditional_jump(instructions, tac_instruction, ElnaRtlOperator.bnez, variable_map)
elsif tac_instruction^.operator = ElnaTacOperator._return then
elna_rtl_load_operand_value(instructions, @tac_instruction^.operands[1], ElnaRtlRegister.a0, variable_map)
elsif tac_instruction^.operator = ElnaTacOperator.label then
instruction := elna_rtl_instruction_create(ElnaRtlOperator.label);
elna_rtl_instruction_set_operand(instruction, 1, ElnaRtlKind.symbol,
tac_instruction^.operands[1].value, tac_instruction^.operands[1].length);
elna_list_append(instructions, instruction)
elsif tac_instruction^.operator = ElnaTacOperator.copy then
if tac_instruction^.operands[1].kind = ElnaTacKind.pseudo then
elna_rtl_load_operand_value(instructions, @tac_instruction^.operands[2], ElnaRtlRegister.t4, variable_map);
instruction := elna_rtl_instruction_create(ElnaRtlOperator.move);
elna_tac_instruction_set_operand(instruction, 1, ElnaRtlKind.pseudo,
tac_instruction^.operands[1].value, tac_instruction^.operands[1].length);
elna_tac_instruction_set_operand(instruction, 2, ElnaRtlKind.register, ElnaRtlRegister.t4, 0);
elna_list_append(instructions, instruction)
end
elsif tac_instruction^.operator = ElnaTacOperator.nop then
instruction := elna_rtl_instruction_create(ElnaRtlOperator.nop);
elna_list_append(instructions, instruction)
end
end;
proc elna_tac_label(instructions: ^ElnaList, counter: Word, length: Word);
var
result: Word;
begin
result := elna_tac_instruction_create(ElnaTacOperator.label);
elna_tac_instruction_set_operand(result, 1, ElnaTacKind.symbol, counter, length);
elna_list_append(instructions, result)
end;
proc elna_riscv_instruction_name(instruction_kind: Word);
var
argument_count: Word;
begin
if instruction_kind = ElnaRtlOperator.li then
argument_count := 2;
_write_s("\tli", 3)
elsif instruction_kind = ElnaRtlOperator.la then
argument_count := 2;
_write_s("\tla", 3)
elsif instruction_kind = ElnaRtlOperator.add then
argument_count := 3;
_write_s("\tadd", 4)
elsif instruction_kind = ElnaRtlOperator.addi then
argument_count := 3;
_write_s("\taddi", 5)
elsif instruction_kind = ElnaRtlOperator.lw then
argument_count := 2;
_write_s("\tlw", 3)
elsif instruction_kind = ElnaRtlOperator.sw then
argument_count := 2;
_write_s("\tsw", 3)
elsif instruction_kind = ElnaRtlOperator.jal then
argument_count := 1;
_write_s("\tcall", 5)
elsif instruction_kind = ElnaRtlOperator.move then
argument_count := 2;
_write_s("\tmv", 3)
elsif instruction_kind = ElnaRtlOperator.sub then
argument_count := 3;
_write_s("\tsub", 4)
elsif instruction_kind = ElnaRtlOperator.mul then
argument_count := 3;
_write_s("\tmul", 4)
elsif instruction_kind = ElnaRtlOperator.div then
argument_count := 3;
_write_s("\tdiv", 4)
elsif instruction_kind = ElnaRtlOperator.rem then
argument_count := 3;
_write_s("\trem", 4)
elsif instruction_kind = ElnaRtlOperator._xor then
argument_count := 3;
_write_s("\txor", 4)
elsif instruction_kind = ElnaRtlOperator.xori then
argument_count := 3;
_write_s("\txori", 5)
elsif instruction_kind = ElnaRtlOperator._or then
argument_count := 3;
_write_s("\tor", 3)
elsif instruction_kind = ElnaRtlOperator.and then
argument_count := 3;
_write_s("\tand", 4)
elsif instruction_kind = ElnaRtlOperator.seqz then
argument_count := 2;
_write_s("\tseqz", 5)
elsif instruction_kind = ElnaRtlOperator.snez then
argument_count := 2;
_write_s("\tsnez", 5)
elsif instruction_kind = ElnaRtlOperator.slt then
argument_count := 3;
_write_s("\tslt", 4)
elsif instruction_kind = ElnaRtlOperator.neg then
argument_count := 2;
_write_s("\tneg", 4)
elsif instruction_kind = ElnaRtlOperator.not then
argument_count := 2;
_write_s("\tnot", 4)
elsif instruction_kind = ElnaRtlOperator.j then
argument_count := 1;
_write_s("\tj", 2)
elsif instruction_kind = ElnaRtlOperator.beqz then
argument_count := 2;
_write_s("\tbeqz", 5)
elsif instruction_kind = ElnaRtlOperator.bnez then
argument_count := 2;
_write_s("\tbnez", 5)
end;
return argument_count
end;
proc elna_riscv_register(register: Word);
begin
printf("x%i\0", register - 1);
fflush(nil)
end;
proc elna_riscv_operand(instruction: ^ElnaRtlInstruction, n: Word);
var
operand_type: Word;
begin
operand_type := instruction^.operands[n].kind;
_write_c(' ');
if operand_type = ElnaRtlKind.register then
elna_riscv_register(instruction^.operands[n].value)
elsif operand_type = ElnaRtlKind.offset then
_write_i(instruction^.operands[n].length);
_write_c('(');
elna_riscv_register(instruction^.operands[n].value);
_write_c(')')
elsif operand_type = ElnaRtlKind.symbol then
if instruction^.operands[n].length = 0 then
_write_label(instruction^.operands[n].value, 0)
else
_write_s(instruction^.operands[n].value, instruction^.operands[n].length)
end
elsif instruction^.operands[n].length = 0 then (* ElnaRtlKind.immediate *)
_write_i(instruction^.operands[n].value)
else
_write_s(instruction^.operands[n].value, instruction^.operands[n].length)
end
end;
proc elna_alloc_variable(operand_value: Word, operand_length: Word, variable_map: ^ElnaSymbolTable);
var
pseudo_symbol: ^ElnaRtlInfo;
begin
pseudo_symbol := elna_symbol_table_lookup(variable_map, operand_value, operand_length);
if pseudo_symbol^.allocated = false then
pseudo_symbol^.allocated := true;
pseudo_symbol^.counter := temporary_variable_counter;
temporary_variable_counter := temporary_variable_counter + pseudo_symbol^.rtl_type^.size
end;
return pseudo_symbol
end;
(**
* If the first operand of an instruction is an operation target and expected
* to be a register, but is not a register, then this procedure rewrites it
* to a temporary register and preserves its value in the following instruction.
*)
proc elna_alloc_operation_target(instructions: ^ElnaList, instruction: ^ElnaRtlInstruction,
variable_map: ^ElnaSymbolTable) -> ^ElnaRtlInstruction;
var
pseudo_symbol: ^ElnaRtlInfo;
store_instruction: ^ElnaRtlInstruction;
begin
if instruction^.operands[1].kind = ElnaRtlKind.pseudo then
store_instruction := elna_rtl_instruction_create(ElnaRtlOperator.sw);
pseudo_symbol := elna_alloc_variable(instruction^.operands[1].value, instruction^.operands[1].length,
variable_map);
elna_rtl_instruction_set_operand(store_instruction, 1, ElnaRtlKind.register, ElnaRtlRegister.t0, 0);
elna_rtl_instruction_set_operand(store_instruction, 2, ElnaRtlKind.offset, ElnaRtlRegister.sp, pseudo_symbol^.counter);
elna_rtl_instruction_set_operand(instruction, 1, ElnaRtlKind.register, ElnaRtlRegister.t0, 0);
elna_list_insert(instructions, instruction, store_instruction);
instruction := store_instruction
end;
return instruction
end;
proc elna_alloc_load_address(instructions: ^ElnaList, instruction: ^ElnaRtlInstruction, variable_map: ^ElnaSymbolTable);
var
pseudo_symbol: ^ElnaRtlInfo;
begin
if instruction^.operands[2].kind = ElnaRtlKind.pseudo then
pseudo_symbol := elna_alloc_variable(instruction^.operands[2].value, instruction^.operands[2].length,
variable_map);
instruction^.operator := ElnaRtlOperator.addi;
elna_rtl_instruction_set_operand(instruction, 2, ElnaRtlKind.register, ElnaRtlRegister.sp, 0);
elna_rtl_instruction_set_operand(instruction, 3, ElnaRtlKind.immediate, pseudo_symbol^.counter, 0)
end;
if instruction^.operands[1].kind = ElnaRtlKind.pseudo then
elna_alloc_operation_target(instructions, instruction, variable_map)
end
end;
proc elna_alloc_store(instructions: ^ElnaList, instruction: ^ElnaRtlInstruction, variable_map: ^ElnaSymbolTable);
var
store_instruction: ^ElnaRtlInstruction;
pseudo_symbol: ^ElnaRtlInfo;
begin
instruction := elna_alloc_operand(instructions, instruction, 1, ElnaRtlRegister.t0, variable_map);
if instruction^.operands[2].kind = ElnaRtlKind.pseudo then
store_instruction := elna_rtl_instruction_create(ElnaRtlOperator.sw);
elna_rtl_instruction_set_operand(store_instruction, 1, instruction^.operands[1].kind,
instruction^.operands[1].value, instruction^.operands[1].length);
elna_rtl_instruction_set_operand(store_instruction, 2, ElnaRtlKind.offset, ElnaRtlRegister.t1, 0);
pseudo_symbol := elna_alloc_variable(instruction^.operands[2].value, instruction^.operands[2].length,
variable_map);
instruction^.operator := ElnaRtlOperator.lw;
elna_rtl_instruction_set_operand(instruction, 1, ElnaRtlKind.register, ElnaRtlRegister.t1, 0);
elna_rtl_instruction_set_operand(instruction, 2, ElnaRtlKind.offset, ElnaRtlRegister.sp, pseudo_symbol^.counter);
elna_list_insert(instructions, instruction, store_instruction);
instruction := store_instruction
end;
return instruction
end;
proc elna_alloc_load(instructions: ^ElnaList, instruction: ^ElnaRtlInstruction, variable_map: ^ElnaSymbolTable);
var
new_instruction: ^ElnaRtlInstruction;
pseudo_symbol: ^ElnaRtlInfo;
begin
if instruction^.operands[2].kind = ElnaRtlKind.pseudo then
pseudo_symbol := elna_alloc_variable(instruction^.operands[2].value,
instruction^.operands[2].length, variable_map);
new_instruction := malloc(#size(ElnaRtlInstruction));
memcpy(new_instruction, instruction, #size(ElnaRtlInstruction));
new_instruction^.next := nil;
elna_rtl_instruction_set_operand(new_instruction, 2, ElnaRtlKind.offset, ElnaRtlRegister.t1, 0);
instruction^.operator := ElnaRtlOperator.lw;
elna_rtl_instruction_set_operand(instruction, 1, ElnaRtlKind.register, ElnaRtlRegister.t1, 0);
elna_rtl_instruction_set_operand(instruction, 2, ElnaRtlKind.offset, ElnaRtlRegister.sp, pseudo_symbol^.counter);
elna_list_insert(instructions, instruction, new_instruction);
instruction := new_instruction
end;
return elna_alloc_operation_target(instructions, instruction, variable_map)
end;
proc elna_alloc_move(instruction: ^ElnaRtlInstruction, variable_map: ^ElnaSymbolTable);
var
pseudo_symbol: ^ElnaRtlInfo;
begin
if instruction^.operands[1].kind = ElnaRtlKind.pseudo then
pseudo_symbol := elna_alloc_variable(instruction^.operands[1].value, instruction^.operands[1].length,
variable_map);
instruction^.operator = ElnaRtlOperator.sw;
elna_rtl_instruction_set_operand(instruction, 1, instruction^.operands[2].kind,
instruction^.operands[2].value, instruction^.operands[2].length);
elna_rtl_instruction_set_operand(instruction, 2, ElnaRtlKind.offset, ElnaRtlRegister.sp, pseudo_symbol^.counter)
elsif instruction^.operands[2].kind = ElnaRtlKind.pseudo then
pseudo_symbol := elna_alloc_variable(instruction^.operands[2].value, instruction^.operands[2].length,
variable_map);
instruction^.operator = ElnaRtlOperator.lw;
elna_rtl_instruction_set_operand(instruction, 2, ElnaRtlKind.offset, ElnaRtlRegister.sp, pseudo_symbol^.counter)
end
end;
proc elna_alloc_operand(instructions: ^ElnaList, instruction: ^ElnaRtlInstruction,
number: Word, target: ElnaRtlRegister, variable_map: ^ElnaSymbolTable) -> ^ElnaRtlInstruction;
var
main_instruction: ^ElnaRtlInstruction;
pseudo_symbol: ^ElnaRtlInfo;
begin
if instruction^.operands[number].kind = ElnaRtlKind.pseudo then
pseudo_symbol := elna_alloc_variable(instruction^.operands[number].value,
instruction^.operands[number].length, variable_map);
main_instruction := malloc(#size(ElnaRtlInstruction));
memcpy(main_instruction, instruction, #size(ElnaRtlInstruction));
main_instruction^.next := nil;
elna_rtl_instruction_set_operand(main_instruction, number, ElnaRtlKind.register, target, 0);
instruction^.operator := ElnaRtlOperator.lw;
elna_rtl_instruction_set_operand(instruction, 1, ElnaRtlKind.register, target, 0);
elna_rtl_instruction_set_operand(instruction, 2, ElnaRtlKind.offset, ElnaRtlRegister.sp, pseudo_symbol^.counter);
elna_list_insert(instructions, instruction, main_instruction);
instruction := main_instruction
end;
return instruction
end;
proc elna_alloc_binary(instructions: ^ElnaList, instruction: ^ElnaRtlInstruction, variable_map: ^ElnaSymbolTable) -> ^ElnaRtlInstruction;
var
new_instruction: ^ElnaRtlInstruction;
pseudo_symbol: ^ElnaRtlInfo;
begin
instruction := elna_alloc_operand(instructions, instruction, 2, ElnaRtlRegister.t2, variable_map);
instruction := elna_alloc_operand(instructions, instruction, 3, ElnaRtlRegister.t3, variable_map);
return elna_alloc_operation_target(instructions, instruction, variable_map)
end;
proc elna_alloc_unary(instructions: ^ElnaList, instruction: ^ElnaRtlInstruction, variable_map: ^ElnaSymbolTable) -> ^ElnaRtlInstruction;
var
new_instruction: ^ElnaRtlInstruction;
pseudo_symbol: ^ElnaRtlInfo;
begin
instruction := elna_alloc_operand(instructions, instruction, 2, ElnaRtlRegister.t2, variable_map);
return elna_alloc_operation_target(instructions, instruction, variable_map)
end;
proc elna_alloc_instruction(instructions: ^ElnaList, instruction: ^ElnaRtlInstruction, variable_map: ^ElnaSymbolTable) -> ^ElnaRtlInstruction;
var
pseudo_symbol: ^ElnaRtlInfo;
new_instruction: ^ElnaRtlInstruction;
begin
if instruction^.operator = ElnaRtlOperator.move then
elna_alloc_move(instruction, variable_map)
elsif instruction^.operator = ElnaRtlOperator.la then
elna_alloc_load_address(instructions, instruction, variable_map)
elsif instruction^.operator = ElnaRtlOperator.lw then
instruction := elna_alloc_load(instructions, instruction, variable_map)
elsif instruction^.operator = ElnaRtlOperator.sw then
instruction := elna_alloc_store(instructions, instruction, variable_map)
elsif instruction^.operator = ElnaRtlOperator._or then
instruction := elna_alloc_binary(instructions, instruction, variable_map)
elsif instruction^.operator = ElnaRtlOperator.and then
instruction := elna_alloc_binary(instructions, instruction, variable_map)
elsif instruction^.operator = ElnaRtlOperator.mul then
instruction := elna_alloc_binary(instructions, instruction, variable_map)
elsif instruction^.operator = ElnaRtlOperator.sub then
instruction := elna_alloc_binary(instructions, instruction, variable_map)
elsif instruction^.operator = ElnaRtlOperator.add then
instruction := elna_alloc_binary(instructions, instruction, variable_map)
elsif instruction^.operator = ElnaRtlOperator._xor then
instruction := elna_alloc_binary(instructions, instruction, variable_map)
elsif instruction^.operator = ElnaRtlOperator.rem then
instruction := elna_alloc_binary(instructions, instruction, variable_map)
elsif instruction^.operator = ElnaRtlOperator.slt then
instruction := elna_alloc_binary(instructions, instruction, variable_map)
elsif instruction^.operator = ElnaRtlOperator.beqz then
if instruction^.operands[1].kind = ElnaRtlKind.pseudo then
new_instruction := elna_rtl_instruction_create(ElnaRtlOperator.beqz);
elna_rtl_instruction_set_operand(new_instruction, 1, ElnaRtlKind.register, ElnaRtlRegister.t0, 0);
elna_rtl_instruction_set_operand(new_instruction, 2, instruction^.operands[2].kind,
instruction^.operands[2].value, instruction^.operands[2].length);
pseudo_symbol := elna_alloc_variable(instruction^.operands[1].value, instruction^.operands[1].length,
variable_map);
instruction^.operator := ElnaRtlOperator.lw;
elna_rtl_instruction_set_operand(instruction, 1, ElnaRtlKind.register, ElnaRtlRegister.t0, 0);
elna_rtl_instruction_set_operand(instruction, 2, ElnaRtlKind.offset, ElnaRtlRegister.sp, pseudo_symbol^.counter);
elna_list_insert(instructions, instruction, new_instruction)
end
elsif instruction^.operator = ElnaRtlOperator.seqz then
instruction := elna_alloc_unary(instructions, instruction, variable_map)
elsif instruction^.operator = ElnaRtlOperator.snez then
instruction := elna_alloc_unary(instructions, instruction, variable_map)
elsif instruction^.operator = ElnaRtlOperator.xori then
instruction := elna_alloc_binary(instructions, instruction, variable_map)
elsif instruction^.operator = ElnaRtlOperator.addi then
instruction := elna_alloc_binary(instructions, instruction, variable_map)
elsif instruction^.operator = ElnaRtlOperator.li then
elna_alloc_operation_target(instructions, instruction, variable_map)
end;
return instruction^.next
end;
proc elna_riscv_instruction(instruction: ^ElnaRtlInstruction);
var
argument_count: Word;
current_argument: Word;
operand_value: Word;
begin
argument_count := 0;
if instruction^.operator = ElnaRtlOperator.label then
_write_label(instruction^.operands[1].value, instruction^.operands[1].length);
_write_c(':')
elsif instruction^.operator = ElnaRtlOperator.allocate_stack then
operand_value := instruction^.operands[1].value;
(* Write the prologue. *)
printf("\taddi sp, sp, -%i\n\tsw ra, %i(sp)\n\tsw s0, %i(sp)\n\taddi s0, sp, %i\n\0",
operand_value + 8, operand_value + 4, operand_value, operand_value + 8);
fflush(nil)
elsif instruction^.operator = ElnaRtlOperator.ret then
operand_value := instruction^.operands[1].value;
(* Write the epilogue. *)
printf("\tlw ra, %i(sp)\n\tlw s0, %i(sp)\n\taddi sp, sp, %i\n\0", operand_value + 4, operand_value, operand_value + 8);
fflush(nil)
elsif instruction^.operator = ElnaRtlOperator.nop then
else
argument_count := elna_riscv_instruction_name(instruction^.operator)
end;
current_argument := 1;
.elna_riscv_instruction_loop;
if current_argument <= argument_count then
elna_riscv_operand(instruction, current_argument);
current_argument := current_argument + 1
end;
if current_argument <= argument_count then
_write_c(',');
goto elna_riscv_instruction_loop
end;
_write_c('\n')
end;
proc elna_rtl_instructions(instructions: ^ElnaList, instruction: ^ElnaTacInstruction, variable_map: ^ElnaSymbolTable);
begin
.elna_rtl_instructions_start;
if instruction <> nil then
elna_rtl_instruction(instructions, instruction, variable_map);
instruction := instruction^.next;
goto elna_rtl_instructions_start
end
end;
proc elna_alloc_instructions(instructions: ^ElnaList, variable_map: ^ElnaSymbolTable);
var
instruction: ^ElnaRtlInstruction;
begin
instruction := instructions^.first;
.elna_alloc_instructions_start;
if instruction <> nil then
instruction := elna_alloc_instruction(instructions, instruction, variable_map);
goto elna_alloc_instructions_start
end
end;
proc elna_riscv_instructions(instruction: ^ElnaRtlInstruction);
begin
.elna_riscv_instructions_start;
if instruction <> nil then
elna_riscv_instruction(instruction);
instruction := instruction^.next;
goto elna_riscv_instructions_start
end
end;
proc elna_alloc_procedure(rtl_declaration: ^ElnaRtlProcedure);
var
stack_instruction: ^ElnaRtlInstruction;
begin
.elna_alloc_procedure_loop;
temporary_variable_counter := 0;
elna_alloc_instructions(@rtl_declaration^.body, rtl_declaration^.variable_map);
stack_instruction := elna_rtl_instruction_create(ElnaRtlOperator.allocate_stack);
elna_rtl_instruction_set_operand(stack_instruction, 1, ElnaRtlKind.immediate, temporary_variable_counter, 0);
elna_list_prepend(@rtl_declaration^.body, stack_instruction);
stack_instruction := elna_rtl_instruction_create(ElnaRtlOperator.ret);
elna_rtl_instruction_set_operand(stack_instruction, 1, ElnaRtlKind.immediate, temporary_variable_counter, 0);
elna_list_append(@rtl_declaration^.body, stack_instruction);
rtl_declaration := rtl_declaration^.next;
if rtl_declaration <> nil then
goto elna_alloc_procedure_loop
end
end;
proc elna_riscv_procedure(procedure: ^ElnaRtlProcedure);
begin
.elna_riscv_procedure_loop;
(* Write .type _procedure_name, @function. *)
printf(".type %.*s, @function\n\0", procedure^.length, procedure^.name);
(* Write procedure label, _procedure_name: *)
printf("%.*s:\n\0", procedure^.length, procedure^.name);
elna_riscv_instructions(procedure^.body);
_write_z("\tret\n\0");
procedure := procedure^.next;
if procedure <> nil then
goto elna_riscv_procedure_loop
end
end;
proc elna_riscv_variable(variable: ^ElnaRtlStaticVariable);
begin
.elna_riscv_variable_loop;
if variable <> 0 then
printf(".type %.*s, @object\n\0", variable^.length, variable^.name);
printf("%.*s: .zero %i\n\0", variable^.length, variable^.name, variable^.body);
variable := variable^.next;
goto elna_riscv_variable_loop
end
end;
proc elna_rtl_module_declaration(tac_module: ^ElnaInstructionModule);
var
result: ^ElnaInstructionModule;
begin
result := malloc(#size(ElnaInstructionModule));
result^.data := elna_rtl_globals(tac_module^.data);
result^.code := elna_rtl_procedures(tac_module^.code);
return result
end;
proc elna_alloc_module(pair: ^ElnaInstructionModule);
begin
elna_alloc_procedure(pair^.code)
end;
proc elna_riscv_module(pair: ^ElnaInstructionModule);
var
compiler_strings_copy: Word;
compiler_strings_end: Word;
current_byte: Word;
begin
_write_z(".globl main\n\n\0");
_write_z(".section .data\n\0");
elna_riscv_variable(pair^.data);
_write_z(".section .text\n\n\0");
_write_z(".type _load_byte, @function\n_load_byte:\n\tlb a0, (a0)\nret\n\n\0");
_write_z(".type _store_byte, @function\n_store_byte:\n\tsb a0, (a1)\nret\n\n\0");
elna_riscv_procedure(pair^.code);
_write_z(".section .rodata\n.type strings, @object\nstrings: .ascii \0");
_write_c('"');
compiler_strings_copy := @compiler_strings;
compiler_strings_end := compiler_strings_position;
.elna_riscv_module_loop;
if compiler_strings_copy < compiler_strings_end then
current_byte := _load_byte(compiler_strings_copy);
compiler_strings_copy := compiler_strings_copy + 1;
_write_c(current_byte);
goto elna_riscv_module_loop
end;
_write_c('"');
_write_c('\n');
end;
proc elna_parser_integer_literal(cursor: ^ElnaLexerCursor);
var
token: ^ElnaLexerToken;
result: ^ElnaTreeIntegerLiteral;
buffer: Word;
begin
result := malloc(#size(ElnaTreeIntegerLiteral));
token := elna_lexer_read(cursor);
buffer := malloc(token^.length + 1);
bzero(buffer, token^.length + 1);
memcpy(buffer, token^.start, token^.length);
result^.kind := ElnaTreeKind.integer_literal;
result^.value := atoi(buffer);
result^.type_decoration := nil;
return result
end;
proc elna_parser_boolean_literal(cursor: ^ElnaLexerCursor);
var
result: ^ElnaTreeBooleanLiteral;
begin
result := malloc(#size(ElnaTreeBooleanLiteral));
result^.kind := ElnaTreeKind.boolean_literal;
result^.value := string_compare(cursor^.start, 4, "true", 4);
result^.type_decoration := nil;
elna_lexer_read(cursor);
return result
end;
proc elna_parser_nil_literal(cursor: ^ElnaLexerCursor);
var
result: ^ElnaTreeNilLiteral;
begin
elna_lexer_read(cursor);
result := malloc(#size(ElnaTreeNilLiteral));
result^.kind := ElnaTreeKind.null;
result^.type_decoration := nil;
return result
end;
proc elna_tac_integer_literal(integer_literal_node: ^ElnaTreeIntegerLiteral, operand: ^ElnaTacOperand);
begin
operand^.kind := ElnaTacKind.immediate;
operand^.value := integer_literal_node^.value;
operand^.length := 0
end;
proc elna_tac_boolean_literal(boolean_literal_node: ^ElnaTreeBooleanLiteral, operand: ^ElnaTacOperand);
begin
operand^.kind := ElnaTacKind.immediate;
operand^.value := boolean_literal_node^.value;
operand^.length := 0
end;
proc elna_tac_nil_literal(nil_node: Word, operand: ^ElnaTacOperand);
begin
operand^.kind := ElnaTacKind.immediate;
operand^.value := 0;
operand^.length := 0
end;
proc elna_parser_character_literal(cursor: ^ElnaLexerCursor);
var
result: ^ElnaTreeCharacterLiteral;
token: ^ElnaLexerToken;
begin
result := malloc(#size(ElnaTreeCharacterLiteral));
token := elna_lexer_read(cursor);
result^.kind := ElnaTreeKind.character_literal;
result^.value := token^.start;
result^.length := token^.length;
result^.type_decoration := nil;
return result
end;
proc elna_tac_character_literal(character_literal_node: ^ElnaTreeCharacterLiteral, operand: ^ElnaTacOperand);
begin
operand^.kind := ElnaTacKind.immediate;
operand^.value := character_literal_node^.value;
operand^.length := character_literal_node^.length
end;
proc elna_parser_variable_expression(cursor: ^ElnaLexerCursor);
var
result: ^ElnaTreeVariableExpression;
token: ^ElnaLexerToken;
begin
result := malloc(#size(ElnaTreeVariableExpression));
token := elna_lexer_read(cursor);
result^.kind := ElnaTreeKind.variable_expression;
result^.name := token^.start;
result^.length := token^.length;
result^.type_decoration := nil;
return result
end;
proc elna_tac_variable_expression(variable_expression: ^ElnaTreeVariableExpression,
symbol_table: ^ElnaSymbolTable, operand: ^ElnaTacOperand);
var
lookup_result: ^ElnaSymbolTemporaryInfo;
begin
lookup_result := elna_symbol_table_lookup(symbol_table, variable_expression^.name, variable_expression^.length);
if lookup_result <> nil then
operand^.kind := ElnaTacKind.pseudo;
operand^.value := variable_expression^.name;
operand^.length := variable_expression^.length
else
operand^.kind := ElnaTacKind.symbol;
operand^.value := variable_expression^.name;
operand^.length := variable_expression^.length
end
end;
proc elna_parser_string_literal(cursor: ^ElnaLexerCursor);
var
result: ^ElnaTreeStringLiteral;
token: ^ElnaLexerToken;
begin
result := malloc(#size(ElnaTreeStringLiteral));
token := elna_lexer_read(cursor);
result^.kind := ElnaTreeKind.string_literal;
result^.value := token^.start;
result^.length := token^.length;
result^.type_decoration := nil;
return result
end;
proc elna_tac_string_literal(instructions: ^ElnaList, string_literal_node: ^ElnaTreeStringLiteral,
symbol_table: ^ElnaSymbolTable, operand: ^ElnaTacOperand);
var
offset: Word;
instruction: Word;
begin
offset := _add_string(string_literal_node^.value);
elna_tac_generate_pseudo(@operand^.kind, @operand^.value, @operand^.length, symbol_table);
instruction := elna_tac_instruction_create(ElnaTacOperator.get_address);
elna_tac_instruction_set_operand(instruction, 1, operand^.kind, operand^.value, operand^.length);
elna_tac_instruction_set_operand(instruction, 2, ElnaTacKind.symbol, "strings", 7);
elna_list_append(instructions, instruction);
(* Add offset to the string block pointer. *)
instruction := elna_tac_instruction_create(ElnaTacOperator.add);
elna_tac_instruction_set_operand(instruction, 1, operand^.kind, operand^.value, operand^.length);
elna_tac_instruction_set_operand(instruction, 2, operand^.kind, operand^.value, operand^.length);
elna_tac_instruction_set_operand(instruction, 3, ElnaTacKind.immediate, offset, 0);
elna_list_append(instructions, instruction)
end;
proc elna_parser_trait_expression(cursor: ^ElnaLexerCursor);
var
result: ^ElnaTreeTraitExpression;
token: ^ElnaLexerToken;
begin
result := malloc(#size(ElnaTreeTraitExpression));
result^.kind := ElnaTreeKind.trait_expression;
token := elna_lexer_read(cursor);
result^.name := token^.start;
result^.length := token^.length;
elna_lexer_read(cursor);
result^.argument := elna_parser_type_expression(cursor);
elna_lexer_read(cursor);
return result
end;
proc elna_parser_simple_expression(cursor: ^ElnaLexerCursor);
var
current_character: Word;
parser_node: Word;
token: ^ElnaLexerToken;
begin
parser_node := 0;
token := elna_lexer_peek(cursor);
if token^.kind = ElnaLexerKind.character then
parser_node := elna_parser_character_literal(cursor)
elsif token^.kind = ElnaLexerKind.integer then
parser_node := elna_parser_integer_literal(cursor)
elsif token^.kind = ElnaLexerKind.string then
parser_node := elna_parser_string_literal(cursor)
elsif token^.kind = ElnaLexerKind.boolean then
parser_node := elna_parser_boolean_literal(cursor)
elsif token^.kind = ElnaLexerKind.null then
parser_node := elna_parser_nil_literal(cursor)
elsif token^.kind = ElnaLexerKind.trait then
parser_node := elna_parser_trait_expression(cursor)
elsif token^.kind = ElnaLexerKind.identifier then
parser_node := elna_parser_variable_expression(cursor)
end;
return parser_node
end;
proc elna_parser_dereference_expression(cursor: ^ElnaLexerCursor, simple_expression: Word);
var
result: ^ElnaTreeDereferenceExpression;
begin
result := malloc(#size(ElnaTreeDereferenceExpression));
result^.kind := ElnaTreeKind.dereference_expression;
result^.pointer := simple_expression;
result^.type_decoration := nil;
elna_lexer_read(cursor);
return result
end;
proc elna_parser_designator(cursor: ^ElnaLexerCursor);
var
simple_expression: Word;
token: ^ElnaLexerToken;
begin
simple_expression := elna_parser_simple_expression(cursor);
.elna_parser_designator_loop;
token := elna_lexer_peek(cursor);
if token^.kind = ElnaLexerKind.hat then
simple_expression := elna_parser_dereference_expression(cursor, simple_expression);
goto elna_parser_designator_loop
elsif token^.kind = ElnaLexerKind.dot then
simple_expression := elna_parser_field_access_expression(cursor, simple_expression);
goto elna_parser_designator_loop
elsif token^.kind = ElnaLexerKind.left_square then
simple_expression := elna_parser_array_access_expression(cursor, simple_expression);
goto elna_parser_designator_loop
elsif token^.kind = ElnaLexerKind.left_paren then
simple_expression := elna_parser_call(cursor, simple_expression);
goto elna_parser_designator_loop
end;
return simple_expression
end;
proc elna_tac_trait_expression(trait_node: ^ElnaTreeTraitExpression, operand: ^ElnaTacOperand);
var
symbol: ^ElnaSymbolTypeInfo;
info_type: ^ElnaType;
parser_node: ^ElnaTreeNamedTypeExpression;
begin
parser_node := trait_node^.argument;
symbol := elna_symbol_table_lookup(@symbol_table_global, parser_node^.name, parser_node^.length);
info_type := symbol^._type;
operand^.kind := ElnaTacKind.immediate;
operand^.value := info_type^.size;
operand^.length := 0
end;
proc elna_tac_simple_expression(instructions: ^ElnaList, parser_node: ^ElnaTreeNode,
symbol_table: ^ElnaSymbolTable, operand: ^ElnaTacOperand);
begin
if parser_node^.kind = ElnaTreeKind.character_literal then
elna_tac_character_literal(parser_node, operand)
elsif parser_node^.kind = ElnaTreeKind.string_literal then
elna_tac_string_literal(instructions, parser_node, symbol_table, operand)
elsif parser_node^.kind = ElnaTreeKind.integer_literal then
elna_tac_integer_literal(parser_node, operand)
elsif parser_node^.kind = ElnaTreeKind.boolean_literal then
elna_tac_boolean_literal(parser_node, operand)
elsif parser_node^.kind = ElnaTreeKind.null then
elna_tac_nil_literal(parser_node, operand)
elsif parser_node^.kind = ElnaTreeKind.trait_expression then
elna_tac_trait_expression(parser_node, operand)
else
elna_tac_variable_expression(parser_node, symbol_table, operand)
end
end;
proc elna_parser_unary_expression(cursor: ^ElnaLexerCursor);
var
result: ^ElnaTreeUnaryExpression;
operand: Word;
operator: Word;
token: ^ElnaLexerToken;
begin
token := elna_lexer_peek(cursor);
operator := 0;
if token^.kind = ElnaLexerKind.at then
operator := '@'
elsif token^.kind = ElnaLexerKind.minus then
operator := '-'
elsif token^.kind = ElnaLexerKind.not then
operator := '~'
end;
if operator <> 0 then
elna_lexer_read(cursor)
end;
result := elna_parser_designator(cursor);
if operator <> 0 then
operand := result;
result := malloc(#size(ElnaTreeUnaryExpression));
result^.kind := ElnaTreeKind.unary_expression;
result^.operand := operand;
result^.operator := operator;
result^.type_decoration := nil
end;
return result
end;
proc elna_tac_copy_address(instructions: ^ElnaList, is_address: Word, from: ^ElnaTacOperand, to: ^ElnaTacOperand);
var
instruction: Word;
begin
if is_address then
instruction := elna_tac_instruction_create(ElnaTacOperator.copy)
else
instruction := elna_tac_instruction_create(ElnaTacOperator.get_address)
end;
elna_tac_instruction_set_operand(instruction, 1, to^.kind, to^.value, to^.length);
elna_tac_instruction_set_operand(instruction, 2, from^.kind, from^.value, from^.length);
elna_list_append(instructions, instruction)
end;
proc elna_tac_unary_expression(instructions: ^ElnaList, parser_node: ^ElnaTreeUnaryExpression, symbol_table: ^ElnaSymbolTable, operand: ^ElnaTacOperand);
var
token_kind: Word;
operator: Word;
unary_operand: ^ElnaTreeExpression;
is_address: Word;
instruction: Word;
base: ElnaTacOperand;
begin
if parser_node^.kind = ElnaTreeKind.unary_expression then
operator := parser_node^.operator;
unary_operand := parser_node^.operand
else
operator := 0;
unary_operand := parser_node
end;
elna_tac_designator(instructions, unary_operand, symbol_table, @is_address, @base);
if operator = '@' then
elna_tac_generate_pseudo(@operand^.kind, @operand^.value, @operand^.length, symbol_table);
elna_tac_copy_address(instructions, is_address, @base, operand)
elsif operator = '-' then
elna_tac_generate_pseudo(@operand^.kind, @operand^.value, @operand^.length, symbol_table);
instruction := elna_tac_instruction_create(ElnaTacOperator.negate);
elna_tac_instruction_set_operand(instruction, 1, operand^.kind, operand^.value, operand^.length);
elna_tac_instruction_set_operand(instruction, 2, base.kind, base.value, base.length);
elna_list_append(instructions, instruction)
elsif operator = '~' then
elna_tac_generate_pseudo(@operand^.kind, @operand^.value, @operand^.length, symbol_table);
instruction := elna_tac_instruction_create(ElnaTacOperator.complement);
elna_tac_instruction_set_operand(instruction, 1, operand^.kind, operand^.value, operand^.length);
elna_tac_instruction_set_operand(instruction, 2, base.kind, base.value, base.length);
elna_list_append(instructions, instruction)
elsif is_address then
elna_tac_generate_pseudo(@operand^.kind, @operand^.value, @operand^.length, symbol_table);
instruction := elna_tac_instruction_create(ElnaTacOperator.load);
elna_tac_instruction_set_operand(instruction, 1, base.kind, base.value, base.length);
elna_tac_instruction_set_operand(instruction, 2, operand^.kind, operand^.value, operand^.length);
elna_list_append(instructions, instruction)
else
operand^.kind := base.kind;
operand^.value := base.value;
operand^.length := base.length
end
end;
proc elna_parser_binary_expression(cursor: ^ElnaLexerCursor);
var
lhs_node: Word;
rhs_node: Word;
result: ^ElnaTreeBinaryExpression;
token: ^ElnaLexerToken;
begin
lhs_node := elna_parser_unary_expression(cursor);
rhs_node := 0;
token := elna_lexer_peek(cursor);
if token^.kind = ElnaLexerKind.plus then
elna_lexer_read(cursor);
rhs_node := elna_parser_unary_expression(cursor)
elsif token^.kind = ElnaLexerKind.minus then
elna_lexer_read(cursor);
rhs_node := elna_parser_unary_expression(cursor)
elsif token^.kind = ElnaLexerKind.multiplication then
elna_lexer_read(cursor);
rhs_node := elna_parser_unary_expression(cursor)
elsif token^.kind = ElnaLexerKind.and then
elna_lexer_read(cursor);
rhs_node := elna_parser_unary_expression(cursor)
elsif token^.kind = ElnaLexerKind._or then
elna_lexer_read(cursor);
rhs_node := elna_parser_unary_expression(cursor)
elsif token^.kind = ElnaLexerKind._xor then
elna_lexer_read(cursor);
rhs_node := elna_parser_unary_expression(cursor)
elsif token^.kind = ElnaLexerKind.equals then
elna_lexer_read(cursor);
rhs_node := elna_parser_unary_expression(cursor)
elsif token^.kind = ElnaLexerKind.remainder then
elna_lexer_read(cursor);
rhs_node := elna_parser_unary_expression(cursor)
elsif token^.kind = ElnaLexerKind.division then
elna_lexer_read(cursor);
rhs_node := elna_parser_unary_expression(cursor)
elsif token^.kind = ElnaLexerKind.less_than then
elna_lexer_read(cursor);
rhs_node := elna_parser_unary_expression(cursor)
elsif token^.kind = ElnaLexerKind.greater_than then
elna_lexer_read(cursor);
rhs_node := elna_parser_unary_expression(cursor)
elsif token^.kind = ElnaLexerKind.less_equal then
elna_lexer_read(cursor);
rhs_node := elna_parser_unary_expression(cursor)
elsif token^.kind = ElnaLexerKind.not_equal then
elna_lexer_read(cursor);
rhs_node := elna_parser_unary_expression(cursor)
elsif token^.kind = ElnaLexerKind.greater_equal then
elna_lexer_read(cursor);
rhs_node := elna_parser_unary_expression(cursor)
end;
if rhs_node <> 0 then
result := malloc(#size(ElnaTreeBinaryExpression));
result^.kind := ElnaTreeKind.binary_expression;
result^.lhs := lhs_node;
result^.rhs := rhs_node;
result^.operator := token^.kind;
result^.type_decoration := nil
else
result := lhs_node
end;
return result
end;
proc elna_tac_binary_expression(instructions: ^ElnaList, parser_node: ^ElnaTreeBinaryExpression, symbol_table: ^ElnaSymbolTable, operand: ^ElnaTacOperand);
var
instruction: Word;
lhs: ElnaTacOperand;
rhs: ElnaTacOperand;
begin
if parser_node^.kind <> ElnaTreeKind.binary_expression then
elna_tac_unary_expression(instructions, parser_node, symbol_table, operand)
else
elna_tac_unary_expression(instructions, parser_node^.lhs, symbol_table, @lhs);
elna_tac_unary_expression(instructions, parser_node^.rhs, symbol_table, @rhs);
if parser_node^.operator = ElnaLexerKind.plus then
instruction := elna_tac_instruction_create(ElnaTacOperator.add)
elsif parser_node^.operator = ElnaLexerKind.minus then
instruction := elna_tac_instruction_create(ElnaTacOperator.subtract)
elsif parser_node^.operator = ElnaLexerKind.multiplication then
instruction := elna_tac_instruction_create(ElnaTacOperator.multiply)
elsif parser_node^.operator = ElnaLexerKind.and then
instruction := elna_tac_instruction_create(ElnaTacOperator.and)
elsif parser_node^.operator = ElnaLexerKind._or then
instruction := elna_tac_instruction_create(ElnaTacOperator._or)
elsif parser_node^.operator = ElnaLexerKind._xor then
instruction := elna_tac_instruction_create(ElnaTacOperator._xor)
elsif parser_node^.operator = ElnaLexerKind.equals then
instruction := elna_tac_instruction_create(ElnaTacOperator.equal)
elsif parser_node^.operator = ElnaLexerKind.remainder then
instruction := elna_tac_instruction_create(ElnaTacOperator.remainder)
elsif parser_node^.operator = ElnaLexerKind.division then
instruction := elna_tac_instruction_create(ElnaTacOperator.divide)
elsif parser_node^.operator = ElnaLexerKind.less_than then
instruction := elna_tac_instruction_create(ElnaTacOperator.less_than)
elsif parser_node^.operator = ElnaLexerKind.greater_than then
instruction := elna_tac_instruction_create(ElnaTacOperator.greater_than)
elsif parser_node^.operator = ElnaLexerKind.less_equal then
instruction := elna_tac_instruction_create(ElnaTacOperator.less_or_equal)
elsif parser_node^.operator = ElnaLexerKind.greater_equal then
instruction := elna_tac_instruction_create(ElnaTacOperator.greater_or_equal)
elsif parser_node^.operator = ElnaLexerKind.not_equal then
instruction := elna_tac_instruction_create(ElnaTacOperator.not_equal)
end;
elna_tac_generate_pseudo(@operand^.kind, @operand^.value, @operand^.length, symbol_table);
elna_tac_instruction_set_operand(instruction, 1, operand^.kind, operand^.value, operand^.length);
elna_tac_instruction_set_operand(instruction, 2, lhs.kind, lhs.value, lhs.length);
elna_tac_instruction_set_operand(instruction, 3, rhs.kind, rhs.value, rhs.length);
elna_list_append(instructions, instruction)
end;
return instructions^.first
end;
proc elna_parser_call(cursor: ^ElnaLexerCursor, callee: Word);
var
result: ^ElnaTreeCall;
argument_number: Word;
argument_entry: ^ElnaTreeExpressionList;
token: ^ElnaLexerToken;
begin
result := malloc(#size(ElnaTreeCall));
result^.kind := ElnaTreeKind.call;
result^.next := nil;
result^.arguments := nil;
argument_number := 1;
result^.callee := callee;
elna_lexer_read(cursor);
token := elna_lexer_peek(cursor);
if token^.kind = ElnaLexerKind.right_paren then
elna_lexer_read(cursor);
goto elna_parser_call_end
end;
.elna_parser_call_loop;
if result^.arguments = nil then
result^.arguments := malloc(#size(ElnaTreeExpressionList));
argument_entry := result^.arguments
else
argument_entry^.next := malloc(#size(ElnaTreeExpressionList));
argument_entry := argument_entry^.next
end;
argument_entry^.next := nil;
argument_entry^.expression := elna_parser_binary_expression(cursor);
argument_number := argument_number + 1;
token := elna_lexer_read(cursor);
if token^.kind = ElnaLexerKind.comma then
goto elna_parser_call_loop
end;
.elna_parser_call_end;
(* Save the number of arguments. *)
result^.count := argument_number - 1;
return result
end;
proc elna_tac_call(instructions: ^ElnaList, parsed_call: ^ElnaTreeCall, symbol_table: ^ElnaSymbolTable, operand: ^ElnaTacOperand);
var
parsed_expression: ^ElnaTreeVariableExpression;
arguments_operand: ^ElnaTacOperand;
call_instruction: Word;
argument_entry: ^ElnaTreeExpressionList;
begin
parsed_expression := parsed_call^.callee;
arguments_operand := malloc(parsed_call^.count * #size(ElnaTacOperand));
elna_tac_generate_pseudo(@operand^.kind, @operand^.value, @operand^.length, symbol_table);
call_instruction := elna_tac_instruction_create(ElnaTacOperator.proc_call);
elna_tac_instruction_set_operand(call_instruction, 1, ElnaTacKind.symbol, parsed_expression^.name, parsed_expression^.length);
elna_tac_instruction_set_operand(call_instruction, 2, ElnaTacKind.list, arguments_operand, parsed_call^.count);
elna_tac_instruction_set_operand(call_instruction, 3, operand^.kind, operand^.value, operand^.length);
argument_entry := parsed_call^.arguments;
.elna_tac_call_loop;
if argument_entry <> nil then
elna_tac_binary_expression(instructions, argument_entry^.expression, symbol_table, arguments_operand);
arguments_operand := arguments_operand + #size(ElnaTacOperand);
argument_entry := argument_entry^.next;
goto elna_tac_call_loop
end;
elna_list_append(instructions, call_instruction)
end;
proc elna_parser_goto_statement(cursor: ^ElnaLexerCursor);
var
result: ^ElnaTreeGotoStatement;
token: ^ElnaLexerToken;
begin
elna_lexer_read(cursor);
token := elna_lexer_read(cursor);
result := malloc(#size(ElnaTreeGotoStatement));
result^.kind := ElnaTreeKind.goto_statement;
result^.next := nil;
result^.label := token^.start;
result^.length := token^.length;
return result
end;
proc elna_tac_goto_statement(instructions: ^ElnaList, parser_node: ^ElnaTreeGotoStatement);
var
label_length: Word;
label_with_dot: Word;
instruction: Word;
begin
label_length := parser_node^.length + 1;
label_with_dot := malloc(label_length);
_store_byte('.', label_with_dot);
memcpy(label_with_dot + 1, parser_node^.label, parser_node^.length);
instruction := elna_tac_instruction_create(ElnaTacOperator.jump);
elna_tac_instruction_set_operand(instruction, 1, ElnaTacKind.symbol, label_with_dot, label_length);
elna_list_append(instructions, instruction)
end;
proc elna_parser_label_declaration(cursor: ^ElnaLexerCursor);
var
result: ^ElnaTreeGotoStatement;
token: ^ElnaLexerToken;
begin
elna_lexer_read(cursor);
token := elna_lexer_read(cursor);
result := malloc(#size(ElnaTreeLabelDeclaration));
result^.kind := ElnaTreeKind.label_declaration;
result^.next := nil;
result^.label := token^.start;
result^.length := token^.length;
return result
end;
proc elna_tac_label_declaration(instructions: ^ElnaList, parser_node: ^ElnaTreeLabelDeclaration);
begin
elna_tac_label(instructions, parser_node^.label, parser_node^.length)
end;
proc elna_tac_enumeration_value(field_access_expression: ^ElnaTreeFieldAccessExpression, operand: ^ElnaTacOperand);
var
enumeration_type: ^ElnaTypeEnumeration;
members: Word;
members_length: Word;
token_type: Word;
symbol_info: ^ElnaSymbolTypeInfo;
member_name: Word;
member_length: Word;
counter: Word;
enumeration_type_name: ^ElnaTreeVariableExpression;
begin
enumeration_type_name := field_access_expression^.aggregate;
symbol_info := elna_symbol_table_lookup(@symbol_table_global,
enumeration_type_name^.name, enumeration_type_name^.length);
enumeration_type := symbol_info^._type;
members := enumeration_type^.members;
members_length := enumeration_type^.length;
counter := 1;
.elna_tac_enumeration_value_members;
if members_length > 0 then
member_name := members^;
member_length := members + 4;
member_length := member_length^;
if string_compare(field_access_expression^.field, field_access_expression^.length, member_name, member_length) = 0 then
members_length := members_length - 1;
members := members + 8;
counter := counter + 1;
goto elna_tac_enumeration_value_members
end;
(* Found. *)
operand^.kind := ElnaTacKind.immediate;
operand^.value := counter;
operand^.length := 0
end
end;
proc elna_parser_field_access_expression(cursor: ^ElnaLexerCursor, aggregate: Word);
var
result: ^ElnaTreeFieldAccessExpression;
token: ^ElnaLexerToken;
begin
(* Skip dot. Read the enumeration value. *)
elna_lexer_read(cursor);
token := elna_lexer_read(cursor);
result := malloc(#size(ElnaTreeFieldAccessExpression));
result^.kind := ElnaTreeKind.field_access_expression;
result^.type_decoration := nil;
result^.aggregate := aggregate;
result^.field := token^.start;
result^.length := token^.length;
return result
end;
proc elna_parser_array_access_expression(cursor: ^ElnaLexerCursor, array: Word);
var
result: ^ElnaTreeArrayAccessExpression;
begin
elna_lexer_read(cursor);
result := malloc(#size(ElnaTreeArrayAccessExpression));
result^.kind := ElnaTreeKind.array_access_expression;
result^.type_decoration := nil;
result^.array := array;
result^.index := elna_parser_binary_expression(cursor);
elna_lexer_read(cursor);
return result
end;
proc elna_tac_dereference_expression(instructions: ^ElnaList, dereference_expression: ^ElnaTreeDereferenceExpression,
symbol_table: ^ElnaSymbolTable, operand: ^ElnaTacOperand);
var
load_instruction: Word;
is_address: Word;
begin
elna_tac_designator(instructions, dereference_expression^.pointer, symbol_table, @is_address, operand);
if is_address = true then
load_instruction := elna_tac_instruction_create(ElnaTacOperator.load);
elna_tac_instruction_set_operand(load_instruction, 1, operand^.kind, operand^.value, operand^.length);
elna_tac_instruction_set_operand(load_instruction, 2, operand^.kind, operand^.value, operand^.length);
elna_list_append(instructions, load_instruction)
end
end;
proc elna_tac_designator(instructions: ^ElnaList, parser_node: ^ElnaTreeExpression, symbol_table: ElnaSymbolTable, is_address: Word, operand: ^ElnaTacOperand);
var
field_access_expression: ^ElnaTreeFieldAccessExpression;
designator_base: ^ElnaTreeExpression;
begin
if parser_node^.kind = ElnaTreeKind.dereference_expression then
elna_tac_dereference_expression(instructions, parser_node, symbol_table, operand);
is_address^ := true
elsif parser_node^.kind = ElnaTreeKind.field_access_expression then
field_access_expression := parser_node;
designator_base := field_access_expression^.aggregate;
if designator_base^.type_decoration = nil then
elna_tac_enumeration_value(field_access_expression, operand);
is_address^ := false
else
elna_tac_field_access_expression(instructions, field_access_expression, symbol_table, operand);
is_address^ := true
end
elsif parser_node^.kind = ElnaTreeKind.array_access_expression then
elna_tac_array_access_expression(instructions, parser_node, symbol_table, operand);
is_address^ := true
elsif parser_node^.kind = ElnaTreeKind.call then
elna_tac_call(instructions, parser_node, symbol_table, operand);
is_address^ := false
else
elna_tac_simple_expression(instructions, parser_node, symbol_table, operand);
is_address^ := false
end
end;
proc elna_tac_field_access_expression(instructions: ^ElnaList, field_access_expression: ^ElnaTreeFieldAccessExpression,
symbol_table: ^ElnaSymbolTable, operand: ^ElnaTacOperand);
var
field_type: ^ElnaType;
instruction: Word;
designator_base: ^ElnaTreeExpression;
aggregate_type: ^ElnaTypeRecord;
field_count: Word;
current_field: ^ElnaTypeField;
field_offset: Word;
is_address: Word;
base: ElnaTacOperand;
begin
designator_base := field_access_expression^.aggregate;
aggregate_type := designator_base^.type_decoration;
elna_tac_designator(instructions, designator_base, symbol_table, @is_address, @base);
field_count := aggregate_type^.length;
current_field := aggregate_type^.members;
field_offset := 0;
.elna_tac_field_access_expression_field;
if string_compare(field_access_expression^.field, field_access_expression^.length, current_field^.name, current_field^.length) = 0 then
field_type := current_field^.field_type;
field_count := field_count - 1;
current_field := current_field + #size(ElnaTypeField);
field_offset := field_offset + field_type^.size;
goto elna_tac_field_access_expression_field
end;
elna_tac_generate_pseudo(@operand^.kind, @operand^.value, @operand^.length, symbol_table);
elna_tac_copy_address(instructions, is_address, @base, operand);
instruction := elna_tac_instruction_create(ElnaTacOperator.add);
elna_tac_instruction_set_operand(instruction, 1, operand^.kind, operand^.value, operand^.length);
elna_tac_instruction_set_operand(instruction, 2, ElnaTacKind.immediate, field_offset, 0);
elna_tac_instruction_set_operand(instruction, 3, operand^.kind, operand^.value, operand^.length);
elna_list_append(instructions, instruction)
end;
proc elna_tac_array_access_expression(instructions: ^ElnaList, array_access_expression: ^ElnaTreeArrayAccessExpression,
symbol_table: ^ElnaSymbolTable, operand: ^ElnaTacOperand);
var
instruction: Word;
is_address: Word;
inter_operand: ElnaTacOperand;
index_type: Word;
index_value: Word;
index_length: Word;
aggregate_type: ^ElnaTypeArray;
designator_base: ^ElnaTreeExpression;
element_type: ^ElnaType;
begin
designator_base := array_access_expression^.array;
aggregate_type := designator_base^.type_decoration;
element_type := aggregate_type^.base;
elna_tac_binary_expression(instructions, array_access_expression^.index, symbol_table, @inter_operand);
elna_tac_generate_pseudo(@index_type, @index_value, @index_length, symbol_table);
instruction := elna_tac_instruction_create(ElnaTacOperator.subtract);
elna_tac_instruction_set_operand(instruction, 1, index_type, index_value, index_length);
elna_tac_instruction_set_operand(instruction, 2, inter_operand.kind, inter_operand.value, inter_operand.length);
elna_tac_instruction_set_operand(instruction, 3, ElnaTacKind.immediate, 1, 0);
elna_list_append(instructions, instruction);
instruction := elna_tac_instruction_create(ElnaTacOperator.multiply);
elna_tac_instruction_set_operand(instruction, 1, index_type, index_value, index_length);
elna_tac_instruction_set_operand(instruction, 2, index_type, index_value, index_length);
elna_tac_instruction_set_operand(instruction, 3, ElnaTacKind.immediate, element_type^.size, 0);
elna_list_append(instructions, instruction);
elna_tac_designator(instructions, array_access_expression^.array, symbol_table, @is_address, @inter_operand);
elna_tac_generate_pseudo(@operand^.kind, @operand^.value, @operand^.length, symbol_table);
elna_tac_copy_address(instructions, is_address, @inter_operand, operand);
instruction := elna_tac_instruction_create(ElnaTacOperator.add);
elna_tac_instruction_set_operand(instruction, 1, operand^.kind, operand^.value, operand^.length);
elna_tac_instruction_set_operand(instruction, 2, operand^.kind, operand^.value, operand^.length);
elna_tac_instruction_set_operand(instruction, 3, index_type, index_value, index_length);
elna_list_append(instructions, instruction)
end;
proc elna_parser_assign_statement(cursor: ^ElnaLexerCursor, assignee: Word);
var
result: ^ElnaTreeAssignStatement;
begin
result := malloc(#size(ElnaTreeAssignStatement));
result^.kind := ElnaTreeKind.assign_statement;
result^.next := nil;
result^.assignee := assignee;
(* Skip the assignment sign (:=) with surrounding whitespaces. *)
elna_lexer_read(cursor);
result^.assignment := elna_parser_binary_expression(cursor);
return result
end;
proc elna_tac_assign_statement(instructions: ^ElnaList, parser_tree: ^ElnaTreeAssignStatement, symbol_table: ^ElnaSymbolTable);
var
is_address: Word;
instruction: Word;
operand_type: Word;
operand_value: Word;
operand_length: Word;
assignment_operand: ElnaTacOperand;
assignee: ElnaTacOperand;
begin
elna_tac_designator(instructions, parser_tree^.assignee, symbol_table, @is_address, @assignee);
(* Compile the assignment. *)
instruction := elna_tac_binary_expression(instructions, parser_tree^.assignment, symbol_table, @assignment_operand);
if assignee.kind = ElnaTacKind.pseudo then
if is_address then
instruction := elna_tac_instruction_create(ElnaTacOperator.store);
elna_tac_instruction_set_operand(instruction, 1, assignment_operand.kind, assignment_operand.value, assignment_operand.length);
elna_tac_instruction_set_operand(instruction, 2, assignee.kind, assignee.value, assignee.length)
else
instruction := elna_tac_instruction_create(ElnaTacOperator.copy);
elna_tac_instruction_set_operand(instruction, 1, assignee.kind, assignee.value, assignee.length);
elna_tac_instruction_set_operand(instruction, 2, assignment_operand.kind, assignment_operand.value, assignment_operand.length)
end;
elna_list_append(instructions, instruction)
else
elna_tac_generate_pseudo(@operand_type, @operand_value, @operand_length, symbol_table);
(* Save the assignee address on the stack. *)
instruction := elna_tac_instruction_create(ElnaTacOperator.get_address);
elna_tac_instruction_set_operand(instruction, 1, operand_type, operand_value, operand_length);
elna_tac_instruction_set_operand(instruction, 2, assignee.kind, assignee.value, assignee.length);
elna_list_append(instructions, instruction);
instruction := elna_tac_instruction_create(ElnaTacOperator.store);
elna_tac_instruction_set_operand(instruction, 1, assignment_operand.kind, assignment_operand.value, assignment_operand.length);
elna_tac_instruction_set_operand(instruction, 2, operand_type, operand_value, operand_length);
elna_list_append(instructions, instruction)
end
end;
proc elna_parser_return_statement(cursor: ^ElnaLexerCursor);
var
returned: Word;
label_length: Word;
result: ^ElnaTreeReturnStatement;
begin
(* Skip "return" keyword and whitespace after it. *)
elna_lexer_read(cursor);
returned := elna_parser_binary_expression(cursor);
result := malloc(#size(ElnaTreeReturnStatement));
result^.kind := ElnaTreeKind.return_statement;
result^.next := nil;
result^.returned := returned;
return result
end;
proc elna_tac_return_statement(instructions: ^ElnaList, parser_node: ^ElnaTreeReturnStatement, symbol_table: ^ElnaSymbolTable);
var
instruction: Word;
operand: ElnaTacOperand;
begin
instruction := elna_tac_binary_expression(instructions, parser_node^.returned, symbol_table, @operand);
instruction := elna_tac_instruction_create(ElnaTacOperator._return);
elna_tac_instruction_set_operand(instruction, 1, operand.kind, operand.value, operand.length);
elna_list_append(instructions, instruction)
end;
(**
* Writes a label, .Ln, where n is a unique number.
*
* Parameters:
* counter - Label counter.
*)
proc _write_label(counter: Word, length: Word);
var
first_byte: Word;
begin
if length = 0 then
printf(".L%i\0", counter)
else
printf(".%.*s\0", length, counter);
end;
fflush(nil)
end;
proc elna_parser_conditional_statements(cursor: ^ElnaLexerCursor);
var
result: ^ElnaTreeConditionalStatements;
begin
result := malloc(#size(ElnaTreeConditionalStatements));
(* Skip "if", "while" or "elsif". *)
elna_lexer_read(cursor);
result^.condition := elna_parser_binary_expression(cursor);
(* Skip "then" or "do". *)
elna_lexer_read(cursor);
result^.statements := elna_parser_statements(cursor);
result^.next := nil;
return result
end;
proc elna_tac_conditional_statements(instructions: ^ElnaList, parser_node: ^ElnaTreeConditionalStatements,
after_end_label: Word, symbol_table: ^ElnaSymbolTable);
var
condition_label: Word;
instruction: Word;
operand: ElnaTacOperand;
begin
(* Compile condition. *)
instruction := elna_tac_binary_expression(instructions, parser_node^.condition, symbol_table, @operand);
(* condition_label is the label in front of the next elsif condition or end. *)
condition_label := label_counter;
label_counter := label_counter + 1;
instruction := elna_tac_instruction_create(ElnaTacOperator.jump_if_zero);
elna_tac_instruction_set_operand(instruction, 1, operand.kind, operand.value, operand.length);
elna_tac_instruction_set_operand(instruction, 2, ElnaTacKind.symbol, condition_label, 0);
elna_list_append(instructions, instruction);
elna_tac_statements(instructions, parser_node^.statements, symbol_table);
instruction := elna_tac_instruction_create(ElnaTacOperator.jump);
elna_tac_instruction_set_operand(instruction, 1, ElnaTacKind.symbol, after_end_label, 0);
elna_list_append(instructions, instruction);
elna_tac_label(instructions, condition_label, 0)
end;
proc elna_parser_if_statement(cursor: ^ElnaLexerCursor);
var
result: ^ElnaTreeIfStatement;
previous_conditional: ^ElnaTreeConditionalStatements;
next_conditional: ^ElnaTreeConditionalStatements;
token: ^ElnaLexerToken;
begin
result := malloc(#size(ElnaTreeIfStatement));
result^.kind := ElnaTreeKind.if_statement;
result^.next := nil;
previous_conditional := elna_parser_conditional_statements(cursor);
result^.conditionals := previous_conditional;
.elna_parser_if_statement_loop;
token := elna_lexer_peek(cursor);
if token^.kind = ElnaLexerKind._elsif then
next_conditional := elna_parser_conditional_statements(cursor);
previous_conditional^.next := next_conditional;
previous_conditional = next_conditional;
goto elna_parser_if_statement_loop
elsif token^.kind = ElnaLexerKind._else then
elna_lexer_read(cursor);
result^._else := elna_parser_statements(cursor)
else
result^._else := nil
end;
elna_lexer_read(cursor);
return result
end;
proc elna_parser_statement(cursor: ^ElnaLexerCursor);
var
result : ^ElnaTreeNode;
token: ^ElnaLexerToken;
begin
result := nil;
token := elna_lexer_peek(cursor);
if token^.kind = ElnaLexerKind._goto then
result := elna_parser_goto_statement(cursor)
elsif token^.kind = ElnaLexerKind._if then
result := elna_parser_if_statement(cursor)
elsif token^.kind = ElnaLexerKind._return then
result := elna_parser_return_statement(cursor)
elsif token^.kind = ElnaLexerKind.dot then
result := elna_parser_label_declaration(cursor)
elsif token^.kind = ElnaLexerKind.identifier then
result := elna_parser_designator(cursor);
if result^.kind <> ElnaTreeKind.call then
result := elna_parser_assign_statement(cursor, result)
end
end;
return result
end;
proc elna_parser_statements(cursor: ^ElnaLexerCursor);
var
previous_statement: ^ElnaTreeStatement;
next_statement: ^ElnaTreeStatement;
first_statement: ^ElnaTreeStatement;
token: ^ElnaLexerToken;
begin
elna_lexer_skip_empty_lines(cursor);
first_statement := elna_parser_statement(cursor);
previous_statement := first_statement;
if previous_statement = 0 then
goto elna_parser_statements_end
end;
.elna_parser_statement_loop;
token := elna_lexer_peek(cursor);
if token^.kind = ElnaLexerKind.semicolon then
elna_lexer_read(cursor);
elna_lexer_skip_empty_lines(cursor);
next_statement := elna_parser_statement(cursor);
previous_statement^.next := next_statement;
previous_statement := next_statement;
if previous_statement <> 0 then
goto elna_parser_statement_loop
end
end;
.elna_parser_statements_end;
elna_lexer_skip_empty_lines(cursor);
return first_statement
end;
proc elna_tac_statements(instructions: ^ElnaList, current_statement: ^ElnaTreeStatement, symbol_table: ^ElnaSymbolTable);
begin
.elna_tac_statements_loop;
pseudo_counter := 0;
if current_statement <> nil then
elna_tac_statement(instructions, current_statement, symbol_table);
current_statement := current_statement^.next;
goto elna_tac_statements_loop
end
end;
proc elna_tac_if_statement(instructions: ElnaList, parser_node: ^ElnaTreeIfStatement, symbol_table: ^ElnaSymbolTable);
var
current_node: ^ElnaTreeConditionalStatements;
after_end_label: Word;
condition_label: Word;
begin
after_end_label := label_counter;
label_counter := label_counter + 1;
current_node := parser_node^.conditionals;
elna_tac_conditional_statements(instructions, current_node, after_end_label, symbol_table);
.elna_tac_if_statement_loop;
current_node := current_node^.next;
if current_node <> nil then
elna_tac_conditional_statements(instructions, current_node, after_end_label, symbol_table);
goto elna_tac_if_statement_loop
end;
current_node := parser_node^._else;
if parser_node^._else <> nil then
elna_tac_statements(instructions, parser_node^._else, symbol_table)
end;
elna_tac_label(instructions, after_end_label, 0)
end;
proc elna_tac_statement(instructions: ElnaList, parser_node: ^ElnaTreeNode, symbol_table: ^ElnaSymbolTable);
var
operand: ElnaTacOperand;
begin
if parser_node^.kind = ElnaTreeKind.goto_statement then
elna_tac_goto_statement(instructions, parser_node)
elsif parser_node^.kind = ElnaTreeKind.if_statement then
elna_tac_if_statement(instructions, parser_node, symbol_table)
elsif parser_node^.kind = ElnaTreeKind.return_statement then
elna_tac_return_statement(instructions, parser_node, symbol_table)
elsif parser_node^.kind = ElnaTreeKind.label_declaration then
elna_tac_label_declaration(instructions, parser_node)
elsif parser_node^.kind = ElnaTreeKind.call then
elna_tac_call(instructions, parser_node, symbol_table, @operand)
elsif parser_node^.kind = ElnaTreeKind.assign_statement then
elna_tac_assign_statement(instructions, parser_node, symbol_table)
end
end;
(**
* Writes a regster name to the standard output.
*
* Parameters:
* register_character - Register character.
* register_number - Register number.
*)
proc _write_register(register_character: Word, register_number: Word);
begin
_write_c(register_character);
_write_c(register_number + '0')
end;
proc elna_parser_record_type_expression(cursor: ^ElnaLexerCursor);
var
entry: Word;
member_count: Word;
memory_start: Word;
field_type: Word;
result: ^ElnaTreeEnumerationTypeExpression;
previous_entry: Word;
token: ^ElnaLexerToken;
begin
elna_lexer_read(cursor);
member_count := 0;
memory_start := 0;
token := elna_lexer_read(cursor);
if token^.kind = ElnaLexerKind._end then
goto elna_parser_record_type_expression_end
end;
.elna_parser_record_type_expression_loop;
entry := malloc(16);
member_count := member_count + 1;
entry^ := token^.start;
entry := entry + 4;
entry^ := token^.length;
entry := entry + 4;
(* Skip the colon. *)
elna_lexer_read(cursor);
field_type := elna_parser_type_expression(cursor);
entry^ := field_type;
entry := entry + 4;
entry^ := 0;
if memory_start = 0 then
memory_start := entry - 12
else
previous_entry^ := entry - 12
end;
previous_entry := entry;
token := elna_lexer_read(cursor);
if token^.kind = ElnaLexerKind.semicolon then
token := elna_lexer_read(cursor);
goto elna_parser_record_type_expression_loop
end;
.elna_parser_record_type_expression_end;
result := malloc(#size(ElnaTreeEnumerationTypeExpression));
result^.kind := ElnaTreeKind.record_type_expression;
result^.members := memory_start;
result^.length := member_count;
return result
end;
proc elna_parser_enumeration_type_expression(cursor: ^ElnaLexerCursor);
var
memory_start: Word;
member_count: Word;
result: ^ElnaTreeEnumerationTypeExpression;
entry: Word;
previous_entry: Word;
token: ^ElnaLexerToken;
begin
elna_lexer_read(cursor);
memory_start := 0;
member_count := 0;
.elna_parser_enumeration_type_expression_loop;
token := elna_lexer_read(cursor);
entry := malloc(12);
member_count := member_count + 1;
entry^ := token^.start;
entry := entry + 4;
entry^ := token^.length;
entry := entry + 4;
entry^ := 0;
if memory_start = 0 then
memory_start := entry - 8
else
previous_entry^ := entry - 8
end;
previous_entry := entry;
(* Skip the identifier. *)
token := elna_lexer_read(cursor);
if token^.kind = ElnaLexerKind.comma then
goto elna_parser_enumeration_type_expression_loop
end;
result := malloc(#size(ElnaTreeEnumerationTypeExpression));
result^.kind := ElnaTreeKind.enumeration_type_expression;
result^.members := memory_start;
result^.length := member_count;
return result
end;
(**
* Reads and creates enumeration type representation.
*
* record
* type_kind: Word;
* size: Word;
* members: StringArray;
* length: Word
* end;
*
* Returns enumeration type description.
*)
proc elna_name_enumeration_type_expression(parser_node: ^ElnaTreeEnumerationTypeExpression);
var
result: ^ElnaTypeEnumeration;
memory_start: Word;
member_count: Word;
member_array_start: Word;
member_array_current: Word;
begin
result := malloc(#size(ElnaTypeEnumeration));
memory_start := parser_node^.members;
member_count := parser_node^.length;
(* Copy the list of enumeration members into an array of strings. *)
member_array_start := malloc(member_count * 8);
member_array_current := member_array_start;
.elna_name_type_enumeration_loop;
if member_count > 0 then
member_array_current^ := memory_start^;
member_array_current := member_array_current + 4;
memory_start := memory_start + 4;
member_array_current^ := memory_start^;
member_array_current := member_array_current + 4;
memory_start := memory_start + 4;
memory_start := memory_start^;
member_count := member_count - 1;
goto elna_name_type_enumeration_loop
end;
member_count := parser_node^.length;
result^.kind := ElnaTypeKind.enumeration;
result^.size := 4;
result^.members := member_array_start;
result^.length := member_count;
return result
end;
proc elna_name_pointer_type_expression(parser_node: ^ElnaTreePointerTypeExpression);
var
result: ^ElnaTypePointer;
begin
result := malloc(#size(ElnaTypePointer));
result^.kind := ElnaTypeKind.pointer;
result^.size := 4;
result^.base := elna_name_type_expression(parser_node^.base);
return result
end;
proc elna_name_array_type_expression(parser_node: ^ElnaTreeArrayTypeExpression);
var
base: ^ElnaType;
result: ^ElnaTypeArray;
length: ^ElnaTreeIntegerLiteral;
begin
result := malloc(#size(ElnaTypeArray));
base := elna_name_type_expression(parser_node^.base);
(* TODO: Expected to be an integer literal for now. *)
length := parser_node^.length;
result^.kind := ElnaTypeKind.array;
(* Array size in bytes. *)
result^.size := base^.size * length^.value;
result^.base := base;
result^.length := length^.value;
return result
end;
proc elna_name_record_type_expression(parser_node: ^ElnaTreeRecordTypeExpression);
var
result: ^ElnaTypeRecord;
memory_start: Word;
member_count: Word;
member_array_start: Word;
member_array_current: ^ElnaTypeField;
field_type: ^ElnaType;
begin
result := malloc(#size(ElnaTypeRecord));
result^.size := 0;
memory_start := parser_node^.members;
member_count := parser_node^.length;
member_array_start := malloc(member_count * #size(ElnaTypeField));
member_array_current := member_array_start;
.elna_name_type_record_loop;
if member_count > 0 then
member_array_current^.name := memory_start^;
memory_start := memory_start + 4;
member_array_current^.length := memory_start^;
memory_start := memory_start + 4;
field_type := elna_name_type_expression(memory_start^);
result^.size := result^.size + field_type^.size;
member_array_current^.field_type := field_type;
member_array_current := member_array_current + #size(ElnaTypeField);
memory_start := memory_start + 4;
memory_start := memory_start^;
member_count := member_count - 1;
goto elna_name_type_record_loop
end;
result^.kind := ElnaTypeKind._record;
result^.members := member_array_start;
result^.length := parser_node^.length;
return result
end;
proc elna_parser_named_type_expression(cursor: ^ElnaLexerCursor);
var
result: ^ElnaTreeNamedTypeExpression;
token: ^ElnaLexerToken;
begin
result := malloc(#size(ElnaTreeNamedTypeExpression));
token := elna_lexer_read(cursor);
result^.kind := ElnaTreeKind.named_type_expression;
result^.name := token^.start;
result^.length := token^.length;
return result
end;
proc elna_parser_pointer_type_expression(cursor: ^ElnaLexerCursor);
var
result: ^ElnaTreePointerTypeExpression;
begin
elna_lexer_read(cursor);
result := malloc(#size(ElnaTreePointerTypeExpression));
result^.kind := ElnaTreeKind.pointer_type_expression;
result^.base := elna_parser_type_expression(cursor);
return result
end;
proc elna_parser_array_type_expression(cursor: ^ElnaLexerCursor);
var
result: ^ElnaTreeArrayTypeExpression;
begin
elna_lexer_read(cursor);
result := malloc(#size(ElnaTreeArrayTypeExpression));
result^.kind := ElnaTreeKind.array_type_expression;
result^.length := elna_parser_binary_expression(cursor);
(* Read and skip square bracket. *)
elna_lexer_read(cursor);
result^.base := elna_parser_type_expression(cursor);
return result
end;
proc elna_parser_type_expression(cursor: ^ElnaLexerCursor);
var
result: Word;
token: ^ElnaLexerToken;
begin
result := nil;
token := elna_lexer_peek(cursor);
if token^.kind = ElnaLexerKind.identifier then
result := elna_parser_named_type_expression(cursor)
elsif token^.kind = ElnaLexerKind.left_paren then
result := elna_parser_enumeration_type_expression(cursor)
elsif token^.kind = ElnaLexerKind._record then
result := elna_parser_record_type_expression(cursor)
elsif token^.kind = ElnaLexerKind.hat then
result := elna_parser_pointer_type_expression(cursor)
elsif token^.kind = ElnaLexerKind.left_square then
result := elna_parser_array_type_expression(cursor)
end;
return result
end;
proc elna_name_type_expression(parser_node: ^ElnaTreeNode);
var
named_type_expression: ^ElnaTreeNamedTypeExpression;
type_symbol: ^ElnaSymbolTypeInfo;
result: Word;
begin
if parser_node^.kind = ElnaTreeKind.named_type_expression then
named_type_expression := parser_node;
type_symbol := elna_symbol_table_lookup(@symbol_table_global,
named_type_expression^.name, named_type_expression^.length);
result := type_symbol^._type
elsif parser_node^.kind = ElnaTreeKind.enumeration_type_expression then
result := elna_name_enumeration_type_expression(parser_node)
elsif parser_node^.kind = ElnaTreeKind.record_type_expression then
result := elna_name_record_type_expression(parser_node)
elsif parser_node^.kind = ElnaTreeKind.pointer_type_expression then
result := elna_name_pointer_type_expression(parser_node)
elsif parser_node^.kind = ElnaTreeKind.array_type_expression then
result := elna_name_array_type_expression(parser_node)
end;
return result
end;
proc _type_info_create(type_representation: Word);
var
result: ^ElnaSymbolTypeInfo;
begin
result := malloc(#size(ElnaSymbolTypeInfo));
result^.kind := ElnaSymbolInfoKind.type_info;
result^._type := type_representation;
return result
end;
(**
* Parameters:
* attr - Local variable attributes.
* temporary_type - Local variable type.
*)
proc _temporary_info_create(attr: Word, temporary_type: Word);
var
result: ^ElnaSymbolTemporaryInfo;
begin
result := malloc(#size(ElnaSymbolTemporaryInfo));
result^.kind := ElnaSymbolInfoKind.temporary_info;
(* Calculate the stack offset: 4 * variable_counter. *)
result^.variable_type := temporary_type;
result^.attr := attr;
return result
end;
(**
* Parameters:
* symbol_table - Local symbol table.
*)
proc _procedure_info_create(symbol_table: ^ElnaSymbolTable);
var
result: ^ElnaSymbolProcedureInfo;
begin
result := malloc(#size(ElnaSymbolProcedureInfo));
result^.kind := ElnaSymbolInfoKind.procedure_info;
result^.symbol_table := symbol_table;
return result
end;
(**
* Parameters:
* variable_index - Variable index.
*)
proc elna_name_procedure_temporary(parser_node: ^ElnaTreeVariableDeclaration, symbol_table: ^ElnaSymbolTable);
var
info: Word;
variable_type: Word;
begin
variable_type := elna_name_type_expression(parser_node^._type);
info := _temporary_info_create(0, variable_type);
elna_symbol_table_enter(symbol_table, parser_node^.name, parser_node^.length, info)
end;
proc elna_name_procedure_temporaries(parser_node: ^ElnaTreeVariableDeclaration, symbol_table: ^ElnaSymbolTable);
begin
.elna_name_procedure_temporaries_loop;
if parser_node <> nil then
elna_name_procedure_temporary(parser_node, symbol_table);
parser_node := parser_node^.next;
goto elna_name_procedure_temporaries_loop
end
end;
proc elna_parser_procedure_declaration(cursor: ^ElnaLexerCursor);
var
next_declaration: ^ElnaTreeDeclaration;
current_declaration: ^ElnaTreeDeclaration;
result: ^ElnaTreeProcedureDeclaration;
parameter_head: ^ElnaTreeDeclaration;
token: ^ElnaLexerToken;
begin
result := malloc(#size(ElnaTreeProcedureDeclaration));
result^.kind := ElnaTreeKind.procedure_declaration;
result^.next := nil;
(* Skip "proc ". *)
elna_lexer_read(cursor);
(* Skip procedure name. *)
token := elna_lexer_read(cursor);
result^.name := token^.start;
result^.length := token^.length;
(* Skip open paren. *)
elna_lexer_read(cursor);
parameter_head := nil;
.elna_parser_procedure_declaration_parameter;
token := elna_lexer_peek(cursor);
if token^.kind <> ElnaLexerKind.right_paren then
next_declaration := elna_parser_variable_declaration(cursor);
if parameter_head = nil then
parameter_head := next_declaration
else
current_declaration^.next := next_declaration
end;
current_declaration := next_declaration;
token := elna_lexer_peek(cursor);
if token^.kind = ElnaLexerKind.comma then
elna_lexer_read(cursor);
goto elna_parser_procedure_declaration_parameter
end
end;
(* Skip close paren. *)
elna_lexer_read(cursor);
result^.parameters := parameter_head;
(* Skip semicolon or arrow. *)
token := elna_lexer_read(cursor);
if token^.kind = ElnaLexerKind.arrow then
result^.return_type := elna_parser_type_expression(cursor);
elna_lexer_read(cursor)
else
result^.return_type := nil
end;
parameter_head := elna_parser_var_part(cursor);
result^.temporaries := parameter_head;
(* Skip semicolon, "begin" and newline. *)
token := elna_lexer_peek(cursor);
if token^.kind = ElnaLexerKind._begin then
elna_lexer_read(cursor);
parameter_head := elna_parser_statements(cursor)
elsif token^.kind = ElnaLexerKind._return then
parameter_head := elna_parser_return_statement(cursor)
end;
result^.body := parameter_head;
(* Skip the "end" keyword. *)
elna_lexer_read(cursor);
return result
end;
proc elna_tac_parameters(ast_list: ^ElnaTreeDeclaration, parameter_count: ^Word);
var
ast_parameter: ^ElnaTreeDeclaration;
parameter_index: Word;
current_parameter: Word;
parameter_list: Word;
begin
ast_parameter := ast_list;
parameter_count^ := 0;
.elna_tac_parameters_count;
if ast_parameter <> nil then
ast_parameter := ast_parameter^.next;
parameter_count^ := parameter_count^ + 1;
goto elna_tac_parameters_count
end;
(* The parameters are saved as an array of name pointer + name length. *)
parameter_list := malloc(parameter_count^ * 8);
current_parameter := parameter_list;
ast_parameter := ast_list;
parameter_index := 0;
.elna_tac_parameters_loop;
if parameter_index < parameter_count^ then
current_parameter^ := ast_parameter^.name;
current_parameter := current_parameter + 4;
current_parameter^ := ast_parameter^.length;
current_parameter := current_parameter + 4;
parameter_index := parameter_index + 1;
ast_parameter := ast_parameter^.next;
goto elna_tac_parameters_loop
end;
return parameter_list
end;
proc elna_rtl_global_declaration(tac_declaration: ^ElnaTacStaticVariable);
var
result: ^ElnaRtlStaticVariable;
begin
result := malloc(#size(ElnaRtlStaticVariable));
result^.next := nil;
result^.name := tac_declaration^.name;
result^.length := tac_declaration^.length;
result^.body := tac_declaration^.body;
return result
end;
proc elna_rtl_parameters(instructions: ^ElnaList, parameters: Word, count: Word);
var
result: ^ElnaRtlInstruction;
instruction: ^ElnaRtlInstruction;
parameter_index: Word;
parameter_name: Word;
name_length: Word;
begin
result := nil;
parameter_index := 0;
.elna_rtl_parameters_loop;
if parameter_index < count then
parameter_name := parameters^;
parameters := parameters + 4;
name_length := parameters^;
parameters := parameters + 4;
instruction := elna_rtl_instruction_create(ElnaRtlOperator.move);
elna_rtl_instruction_set_operand(instruction, 1, ElnaRtlKind.pseudo, parameter_name, name_length);
elna_rtl_instruction_set_operand(instruction, 2, ElnaRtlKind.register, 11 + parameter_index, 0);
elna_list_append(instructions, instruction);
parameter_index := parameter_index + 1;
goto elna_rtl_parameters_loop
end;
return result
end;
(* Returns whether the provided type is array or record. *)
proc elna_type_is_aggregate(_type: ^ElnaType);
var
lhs: Word;
rhs: Word;
begin
lhs := _type^.kind = ElnaTypeKind._record;
rhs := _type^.kind = ElnaTypeKind.array;
return lhs or rhs
end;
proc elna_rtl_generate_pseudo(operand_value: Word, operand_length: Word, variable_map: ^ElnaSymbolTable) -> ^ElnaRtlInfo;
var
pseudo_symbol: ^ElnaRtlInfo;
pseudo_type: ^ElnaRtlTypeWord;
buffer: Word;
begin
pseudo_counter := pseudo_counter + 1;
pseudo_symbol := malloc(#size(ElnaRtlInfo));
buffer := malloc(7);
sprintf(buffer, "$b%i\0", pseudo_counter);
pseudo_symbol^.allocated := false;
pseudo_type := malloc(#size(ElnaRtlTypeWord));
pseudo_type^.kind := ElnaRtlTypeKind.long_word;
pseudo_type^.size := 4;
operand_value^ := buffer;
operand_length^ := strlen(buffer);
pseudo_symbol^.rtl_type := pseudo_type;
elna_symbol_table_enter(variable_map, buffer, operand_length^, pseudo_symbol);
return pseudo_symbol
end;
proc elna_rtl_symbol_table(symbol_table: ^ElnaSymbolTable);
var
variable_map: ^ElnaSymbolTable;
count: Word;
current_entry: ^ElnaSymbolEntry;
pseudo_symbol: ^ElnaRtlInfo;
variable_info: ^ElnaSymbolTemporaryInfo;
byte_array: ^ElnaRtlTypeByteArray;
long_word: ^ElnaRtlTypeWord;
begin
variable_map := malloc(16384);
variable_map^.count := 0;
count := symbol_table^.count;
current_entry := symbol_table + 4;
.elna_rtl_symbol_table_loop;
if count > 0 then
variable_info := current_entry^.symbol_info;
pseudo_symbol := malloc(#size(ElnaRtlInfo));
pseudo_symbol^.allocated := false;
if elna_type_is_aggregate(variable_info^.variable_type) then
byte_array := malloc(#size(ElnaRtlTypeByteArray));
byte_array^.kind := ElnaRtlTypeKind.byte_array;
byte_array^.size := variable_info^.variable_type^.size;
pseudo_symbol^.rtl_type := byte_array
else
long_word := malloc(#size(ElnaRtlTypeWord));
long_word^.kind := ElnaRtlTypeKind.long_word;
long_word^.size := variable_info^.variable_type^.size;
pseudo_symbol^.rtl_type := long_word
end;
elna_symbol_table_enter(variable_map, current_entry^.name, current_entry^.length, pseudo_symbol);
count := count - 1;
current_entry := current_entry + #size(ElnaSymbolEntry);
goto elna_rtl_symbol_table_loop
end;
return variable_map;
end;
proc elna_rtl_procedure_declaration(tac_declaration: ^ElnaTacProcedure);
var
result: ^ElnaRtlProcedure;
begin
result := malloc(#size(ElnaRtlProcedure));
elna_list_initialize(@result^.body);
result^.next := nil;
result^.name := tac_declaration^.name;
result^.length := tac_declaration^.length;
pseudo_counter := 0;
elna_rtl_parameters(@result^.body, tac_declaration^.parameters, tac_declaration^.count);
result^.variable_map := elna_rtl_symbol_table(tac_declaration^.symbol_table);
elna_rtl_instructions(@result^.body, tac_declaration^.body.first, result^.variable_map);
return result
end;
proc elna_tac_procedure_declaration(parser_node: ElnaTreeProcedureDeclaration);
var
symbol_info: ^ElnaSymbolProcedureInfo;
result: ^ElnaTacProcedure;
parameter_count: Word;
body: ElnaList;
begin
result := malloc(#size(ElnaTacProcedure));
result^.next := nil;
elna_list_initialize(@result^.body);
result^.name := parser_node^.name;
result^.length := parser_node^.length;
symbol_info := elna_symbol_table_lookup(@symbol_table_global, parser_node^.name, parser_node^.length);
result^.symbol_table := symbol_info^.symbol_table;
result^.parameters := elna_tac_parameters(parser_node^.parameters, @parameter_count);
result^.count := parameter_count;
elna_tac_statements(@result^.body, parser_node^.body, symbol_info^.symbol_table);
return result
end;
proc elna_parser_procedures(cursor: ^ElnaLexerCursor);
var
parser_node: ^ElnaTreeDeclaration;
result: ^ElnaTreeDeclaration;
current_declaration: ^ElnaTreeDeclaration;
token: ^ElnaLexerToken;
begin
result := nil;
.elna_parser_procedures_loop;
elna_lexer_skip_empty_lines(cursor);
token := elna_lexer_peek(cursor);
if token^.kind = ElnaLexerKind._proc then
parser_node := elna_parser_procedure_declaration(cursor);
if result = 0 then
result := parser_node
else
current_declaration^.next := parser_node
end;
current_declaration := parser_node;
(* Skip semicolon. *)
elna_lexer_read(cursor);
goto elna_parser_procedures_loop
end;
return result
end;
proc elna_rtl_globals(tac_procedure: ^ElnaTacStaticVariable);
var
current_copy: ^ElnaRtlStaticVariable;
next_copy: ^ElnaRtlStaticVariable;
first_copy: ^ElnaRtlStaticVariable;
begin
if tac_procedure <> nil then
first_copy := elna_rtl_global_declaration(tac_procedure);
tac_procedure := tac_procedure^.next
else
first_copy := nil
end;
current_copy := first_copy;
.elna_rtl_globals_start;
if tac_procedure <> nil then
next_copy := elna_rtl_global_declaration(tac_procedure);
tac_procedure := tac_procedure^.next;
current_copy^.next := next_copy;
current_copy := next_copy;
goto elna_rtl_globals_start
end;
return first_copy
end;
proc elna_rtl_procedures(tac_procedure: ^ElnaTacProcedure);
var
current_copy: ^ElnaRtlProcedure;
next_copy: ^ElnaRtlProcedure;
first_copy: ^ElnaRtlProcedure;
begin
if tac_procedure <> nil then
first_copy := elna_rtl_procedure_declaration(tac_procedure);
tac_procedure := tac_procedure^.next
else
first_copy := nil;
end;
current_copy := first_copy;
.elna_rtl_procedures_start;
if tac_procedure <> nil then
next_copy := elna_rtl_procedure_declaration(tac_procedure);
tac_procedure := tac_procedure^.next;
current_copy^.next := next_copy;
current_copy := next_copy;
goto elna_rtl_procedures_start
end;
return first_copy
end;
proc elna_tac_procedures(parser_node: ^ElnaTreeDeclaration);
var
result: ^ElnaTacProcedure;
current_procedure: ^ElnaTacProcedure;
first_procedure: ^ElnaTacProcedure;
begin
first_procedure := nil;
.elna_tac_procedures_loop;
if parser_node = 0 then
goto elna_tac_procedures_end
end;
result := elna_tac_procedure_declaration(parser_node);
if first_procedure = nil then
first_procedure := result
else
current_procedure^.next := result
end;
current_procedure := result;
parser_node := parser_node^.next;
goto elna_tac_procedures_loop;
.elna_tac_procedures_end;
return first_procedure
end;
(**
* Skips comments.
*)
proc elna_lexer_skip_empty_lines(cursor: ^ElnaLexerCursor);
var
token: ^ElnaLexerToken;
begin
.skip_empty_lines_rerun;
token := elna_lexer_peek(cursor);
if token^.kind = ElnaLexerKind.comment then
elna_lexer_read(cursor);
goto skip_empty_lines_rerun
end
end;
proc elna_parser_type_declaration(cursor: ^ElnaLexerCursor);
var
result: ^ElnaTreeTypeDeclaration;
token: ^ElnaLexerToken;
begin
result := malloc(#size(ElnaTreeTypeDeclaration));
token := elna_lexer_read(cursor);
result^.kind := ElnaTreeKind.type_declaration;
result^.next := nil;
result^.name := token^.start;
result^.length := token^.length;
elna_lexer_read(cursor);
result^._type := elna_parser_type_expression(cursor);
elna_lexer_read(cursor);
return result
end;
proc elna_name_type_declaration(parser_node: ^ElnaTreeTypeDeclaration);
var
type_name: Word;
name_length: Word;
type_info: Word;
begin
type_name := parser_node^.name;
name_length := parser_node^.length;
parser_node := parser_node^._type;
type_info := elna_name_type_expression(parser_node);
type_info := _type_info_create(type_info);
elna_symbol_table_enter(@symbol_table_global, type_name, name_length, type_info)
end;
proc elna_type_type_declaration(parser_node: Word);
begin
end;
proc elna_parser_type_part(cursor: ^ElnaLexerCursor);
var
parser_node: ^ElnaTreeDeclaration;
result: ^ElnaTreeDeclaration;
current_declaration: ^ElnaTreeDeclaration;
token: ^ElnaLexerToken;
begin
result := nil;
elna_lexer_skip_empty_lines(cursor);
token := elna_lexer_peek(cursor);
if token^.kind <> ElnaLexerKind._type then
goto elna_parser_type_part_end
end;
elna_lexer_read(cursor);
.elna_parser_type_part_loop;
elna_lexer_skip_empty_lines(cursor);
token := elna_lexer_peek(cursor);
if token^.kind = ElnaLexerKind.identifier then
parser_node := elna_parser_type_declaration(cursor);
if result = nil then
result := parser_node
else
current_declaration^.next := parser_node
end;
current_declaration := parser_node;
goto elna_parser_type_part_loop
end;
.elna_parser_type_part_end;
return result
end;
proc elna_parser_variable_declaration(cursor: ^ElnaLexerCursor);
var
variable_type: Word;
result: ^ElnaTreeVariableDeclaration;
token: ^ElnaLexerToken;
begin
token := elna_lexer_read(cursor);
(* Skip the variable name and colon with the type. *)
elna_lexer_read(cursor);
variable_type := elna_parser_type_expression(cursor);
result := malloc(#size(ElnaTreeVariableDeclaration));
result^.kind := ElnaTreeKind.variable_declaration;
result^.next := nil;
result^.name := token^.start;
result^.length := token^.length;
result^._type := variable_type;
return result
end;
proc elna_tac_variable_declaration(parser_tree: ^ElnaTreeVariableDeclaration);
var
result: ^ElnaTacStaticVariable;
variable_info: ^ElnaSymbolTemporaryInfo;
begin
result := malloc(#size(ElnaTacStaticVariable));
variable_info := elna_symbol_table_lookup(@symbol_table_global, parser_tree^.name, parser_tree^.length);
result^.next := nil;
result^.name := parser_tree^.name;
result^.length := parser_tree^.length;
result^.body := variable_info^.variable_type^.size;
return result
end;
proc elna_parser_var_part(cursor: ^ElnaLexerCursor);
var
result: Word;
variable_node: Word;
current_declaration: ^ElnaTreeDeclaration;
token: ^ElnaLexerToken;
begin
result := 0;
token := elna_lexer_peek(cursor);
if token^.kind <> ElnaLexerKind._var then
goto elna_parser_var_part_end
end;
(* Skip "var". *)
elna_lexer_read(cursor);
.elna_parser_var_part_loop;
elna_lexer_skip_empty_lines(cursor);
token := elna_lexer_peek(cursor);
if token^.kind = ElnaLexerKind.identifier then
variable_node := elna_parser_variable_declaration(cursor);
(* Skip semicolon. *)
elna_lexer_read(cursor);
if result = 0 then
result := variable_node
else
current_declaration^.next := variable_node
end;
current_declaration := variable_node;
goto elna_parser_var_part_loop
end;
.elna_parser_var_part_end;
return result
end;
proc elna_tac_var_part(parser_node: ^ElnaTreeDeclaration);
var
node: ^ElnaTacStaticVariable;
current_variable: ^ElnaTacStaticVariable;
first_variable: ^ElnaTacStaticVariable;
begin
first_variable := 0;
if parser_node = 0 then
goto elna_tac_var_part_end
end;
.elna_tac_var_part_loop;
node := elna_tac_variable_declaration(parser_node);
if first_variable = 0 then
first_variable := node
else
current_variable^.next := node
end;
current_variable := node;
parser_node := parser_node^.next;
if parser_node <> 0 then
goto elna_tac_var_part_loop
end;
.elna_tac_var_part_end;
return first_variable
end;
proc elna_parser_module_declaration(cursor: ^ElnaLexerCursor, error_list: ^ElnaList);
var
parser_node: Word;
result: ^ElnaTreeModuleDeclaration;
parser_error: ^ElnaError;
token: ^ElnaLexerToken;
begin
result := malloc(#size(ElnaTreeModuleDeclaration));
result^.kind := ElnaTreeKind.module_declaration;
(* Skip "program;". *)
elna_lexer_skip_empty_lines(cursor);
token := elna_lexer_read(cursor);
if token^.kind <> ElnaLexerKind._program then
parser_error := malloc(#size(ElnaError));
parser_error^.next := nil;
error_list^.first := parser_error;
error_list^.last := parser_error
else
elna_lexer_read(cursor);
result^.types := elna_parser_type_part(cursor);
result^.globals := elna_parser_var_part(cursor);
result^.procedures := elna_parser_procedures(cursor)
end;
return result
end;
proc elna_tac_module_declaration(parser_node: ^ElnaTreeModuleDeclaration);
var
result: ^ElnaInstructionModule;
begin
result := malloc(#size(ElnaInstructionModule));
result^.data := elna_tac_var_part(parser_node^.globals);
result^.code := elna_tac_procedures(parser_node^.procedures);
return result
end;
proc elna_name_procedure_declaration(parser_node: ^ElnaTreeProcedureDeclaration);
var
new_symbol_table: ^ElnaSymbolTable;
symbol_info: Word;
begin
new_symbol_table := elna_symbol_table_create();
symbol_info := _procedure_info_create(new_symbol_table);
elna_name_procedure_temporaries(parser_node^.parameters, new_symbol_table);
elna_name_procedure_temporaries(parser_node^.temporaries, new_symbol_table);
elna_symbol_table_enter(@symbol_table_global, parser_node^.name, parser_node^.length, symbol_info)
end;
proc elna_type_conditional_statements(parser_node: ^ElnaTreeConditionalStatements, symbol_table: ^ElnaSymbolTable);
begin
.elna_type_conditional_statements_loop;
elna_type_binary_expression(parser_node^.condition, symbol_table);
elna_type_statements(parser_node^.statements, symbol_table);
parser_node := parser_node^.next;
if parser_node <> nil then
goto elna_type_conditional_statements_loop
end
end;
proc elna_type_if_statement(parser_node: ^ElnaTreeIfStatement, symbol_table: ^ElnaSymbolTable);
var
block: ^ElnaTreeConditionalStatements;
begin
block := parser_node^.conditionals;
.elna_type_if_statement_conditionals;
elna_type_conditional_statements(block, symbol_table);
block := block^.next;
if block <> nil then
goto elna_type_if_statement_conditionals
end;
block := parser_node^._else;
if block <> nil then
elna_type_statements(block, symbol_table)
end
end;
proc elna_type_return_statement(parser_node: ^ElnaTreeReturnStatement, symbol_table: ^ElnaSymbolTable);
begin
elna_type_binary_expression(parser_node^.returned, symbol_table)
end;
proc elna_type_call(parser_node: ^ElnaTreeCall, symbol_table: ^ElnaSymbolTable);
var
argument_tree: ^ElnaTreeExpressionList;
begin
argument_tree := parser_node^.arguments;
.elna_type_call_argument;
if argument_tree <> nil then
elna_type_binary_expression(argument_tree^.expression, symbol_table);
argument_tree := argument_tree^.next;
goto elna_type_call_argument
end
end;
proc elna_type_assign_statement(parser_node: ^ElnaTreeAssignStatement, symbol_table: ^ElnaSymbolTable);
begin
elna_type_designator(parser_node^.assignee, symbol_table);
elna_type_binary_expression(parser_node^.assignment, symbol_table)
end;
proc elna_type_statement(parser_node: ^ElnaTreeNode, symbol_table: ^ElnaSymbolTable);
begin
(* Skipping goto and label declarations. *)
if parser_node^.kind = ElnaTreeKind.if_statement then
elna_type_if_statement(parser_node, symbol_table)
elsif parser_node^.kind = ElnaTreeKind.return_statement then
elna_type_return_statement(parser_node, symbol_table)
elsif parser_node^.kind = ElnaTreeKind.call then
elna_type_call(parser_node, symbol_table)
elsif parser_node^.kind = ElnaTreeKind.assign_statement then
elna_type_assign_statement(parser_node, symbol_table)
end
end;
proc elna_type_statements(parser_node: ^ElnaTreeStatement, symbol_table: ^ElnaSymbolTable);
begin
.elna_type_statements_loop;
if parser_node <> nil then
elna_type_statement(parser_node, symbol_table);
parser_node := parser_node^.next;
goto elna_type_statements_loop
end
end;
proc elna_type_character_literal(parser_node: ^ElnaTreeCharacterLiteral);
begin
parser_node^.type_decoration := word_type
end;
proc elna_type_integer_literal(parser_node: ^ElnaTreeIntegerLiteral);
begin
parser_node^.type_decoration := word_type
end;
proc elna_type_string_literal(parser_node: ^ElnaTreeStringLiteral);
begin
parser_node^.type_decoration := word_type
end;
proc elna_type_boolean_literal(parser_node: ^ElnaTreeBooleanLiteral);
var
symbol_info: ^ElnaSymbolTypeInfo;
begin
symbol_info := elna_symbol_table_lookup(@symbol_table_global, "Bool", 4);
parser_node^.type_decoration := symbol_info^._type
end;
proc elna_type_nil_literal(parser_node: ^ElnaTreeNilLiteral);
var
symbol_info: ^ElnaSymbolTypeInfo;
begin
symbol_info := elna_symbol_table_lookup(@symbol_table_global, "Pointer", 7);
parser_node^.type_decoration := symbol_info^._type
end;
proc elna_type_variable_expression(parser_node: ^ElnaTreeVariableExpression, symbol_table: ^ElnaSymbolTable);
var
variable_info: ^ElnaSymbolInfo;
temporary_info: ^ElnaSymbolTemporaryInfo;
begin
variable_info := elna_symbol_table_lookup(symbol_table, parser_node^.name, parser_node^.length);
if variable_info = nil then
variable_info := elna_symbol_table_lookup(@symbol_table_global, parser_node^.name, parser_node^.length)
end;
if variable_info^.kind = ElnaSymbolInfoKind.temporary_info then
temporary_info := variable_info;
parser_node^.type_decoration := temporary_info^.variable_type
end
end;
proc elna_type_simple_expression(parser_node: ^ElnaTreeNode, symbol_table: ^ElnaSymbolTable);
begin
if parser_node^.kind = ElnaTreeKind.integer_literal then
elna_type_integer_literal(parser_node)
elsif parser_node^.kind = ElnaTreeKind.character_literal then
elna_type_character_literal(parser_node)
elsif parser_node^.kind = ElnaTreeKind.string_literal then
elna_type_string_literal(parser_node)
elsif parser_node^.kind = ElnaTreeKind.boolean_literal then
elna_type_boolean_literal(parser_node)
elsif parser_node^.kind = ElnaTreeKind.null then
elna_type_nil_literal(parser_node)
elsif parser_node^.kind = ElnaTreeKind.variable_expression then
elna_type_variable_expression(parser_node, symbol_table)
end
end;
proc elna_type_dereference_expression(parser_node: ^ElnaTreeDereferenceExpression, symbol_table: ^ElnaSymbolTable);
var
base_type: ^ElnaType;
pointer_type: ^ElnaTypePointer;
dereferenced_expression: ^ElnaTreeExpression;
begin
elna_type_designator(parser_node^.pointer, symbol_table);
dereferenced_expression := parser_node^.pointer;
base_type := dereferenced_expression^.type_decoration;
(* If check for compatibility, should be removed later. *)
if base_type^.kind = ElnaTypeKind.pointer then
pointer_type := base_type;
base_type := pointer_type^.base;
end;
parser_node^.type_decoration := base_type
end;
proc elna_type_field_access_expression(parser_node: ^ElnaTreeFieldAccessExpression, symbol_table: ^ElnaSymbolTable);
var
variable_expression: ^ElnaTreeVariableExpression;
base_type: Word;
type_kind: ^ElnaSymbolTypeInfo;
symbol_info: ^ElnaSymbolInfo;
aggregate_type: ^ElnaTypeRecord;
field_count: Word;
current_field: ^ElnaTypeField;
begin
base_type := nil;
variable_expression := parser_node^.aggregate;
(* Check whether the field access is an enumeration value. *)
if variable_expression^.kind = ElnaTreeKind.variable_expression then
symbol_info := elna_symbol_table_lookup(@symbol_table_global, variable_expression^.name, variable_expression^.length);
if symbol_info <> nil then
type_kind := symbol_info;
if symbol_info^.kind = ElnaSymbolInfoKind.type_info then
base_type := type_kind^._type
end
end
end;
(* If the base_type is still nil this is record field access. *)
if base_type = nil then
elna_type_designator(parser_node^.aggregate, symbol_table);
aggregate_type := variable_expression^.type_decoration;
field_count := aggregate_type^.length;
current_field := aggregate_type^.members;
.elna_type_field_access_expression_field;
if string_compare(parser_node^.field, parser_node^.length, current_field^.name, current_field^.length) = 0 then
field_count := field_count - 1;
current_field := current_field + #size(ElnaTypeField);
goto elna_type_field_access_expression_field
end;
base_type := current_field^.field_type
end;
parser_node^.type_decoration := base_type
end;
proc elna_type_array_access_expression(parser_node: ^ElnaTreeArrayAccessExpression, symbol_table: ^ElnaSymbolTable);
var
aggregate_type: ^ElnaTypeArray;
base_expression: ^ElnaTreeExpression;
begin
base_expression := parser_node^.array;
elna_type_designator(base_expression, symbol_table);
elna_type_binary_expression(parser_node^.index, symbol_table);
aggregate_type := base_expression^.type_decoration;
parser_node^.type_decoration := aggregate_type^.base
end;
proc elna_type_designator(parser_node: ^ElnaTreeNode, symbol_table: ^ElnaSymbolTable);
begin
if parser_node^.kind = ElnaTreeKind.dereference_expression then
elna_type_dereference_expression(parser_node, symbol_table)
elsif parser_node^.kind = ElnaTreeKind.field_access_expression then
elna_type_field_access_expression(parser_node, symbol_table)
elsif parser_node^.kind = ElnaTreeKind.array_access_expression then
elna_type_array_access_expression(parser_node, symbol_table)
elsif parser_node^.kind = ElnaTreeKind.call then
elna_type_call(parser_node, symbol_table)
else
elna_type_simple_expression(parser_node, symbol_table)
end
end;
proc elna_type_unary_expression(parser_node: ^ElnaTreeUnaryExpression, symbol_table: ^ElnaSymbolTable);
var
unary_operand: ^ElnaTreeExpression;
begin
if parser_node^.kind = ElnaTreeKind.unary_expression then
unary_operand := parser_node^.operand;
elna_type_designator(unary_operand, symbol_table);
parser_node^.type_decoration := unary_operand^.type_decoration
else
elna_type_designator(parser_node, symbol_table)
end
end;
proc elna_type_binary_expression(parser_node: ^ElnaTreeBinaryExpression, symbol_table: ^ElnaSymbolTable);
var
binary_operand: ^ElnaTreeExpression;
begin
if parser_node^.kind = ElnaTreeKind.binary_expression then
elna_type_unary_expression(parser_node^.rhs, symbol_table);
binary_operand := parser_node^.lhs;
elna_type_unary_expression(binary_operand, symbol_table);
parser_node^.type_decoration := binary_operand^.type_decoration
else
elna_type_unary_expression(parser_node, symbol_table)
end
end;
proc elna_type_procedure_declaration(parser_node: ^ElnaTreeProcedureDeclaration);
var
procedure_info: ^ElnaSymbolProcedureInfo;
begin
procedure_info := elna_symbol_table_lookup(@symbol_table_global, parser_node^.name, parser_node^.length);
elna_type_statements(parser_node^.body, procedure_info^.symbol_table)
end;
proc elna_name_module_declaration(parser_node: ^ElnaTreeModuleDeclaration);
var
current_part: ^ElnaTreeDeclaration;
begin
current_part := parser_node^.types;
.elna_name_module_declaration_type;
if current_part <> nil then
elna_name_type_declaration(current_part);
current_part := current_part^.next;
goto elna_name_module_declaration_type
end;
current_part := parser_node^.globals;
.elna_name_module_declaration_global;
if current_part <> nil then
elna_name_procedure_temporary(current_part, @symbol_table_global);
current_part := current_part^.next;
goto elna_name_module_declaration_global
end;
current_part := parser_node^.procedures;
.elna_name_module_declaration_procedure;
if current_part <> nil then
elna_name_procedure_declaration(current_part);
current_part := current_part^.next;
goto elna_name_module_declaration_procedure
end
end;
proc elna_type_module_declaration(parser_node: ^ElnaTreeModuleDeclaration);
var
current_part: ^ElnaTreeDeclaration;
begin
current_part := parser_node^.types;
.elna_type_module_declaration_type;
if current_part <> 0 then
elna_type_type_declaration(current_part);
current_part := current_part^.next;
goto elna_type_module_declaration_type
end;
current_part := parser_node^.procedures;
.elna_type_module_declaration_procedure;
if current_part <> 0 then
elna_type_procedure_declaration(current_part);
current_part := current_part^.next;
goto elna_type_module_declaration_procedure
end
end;
proc _compile(cursor: ^ElnaLexerCursor);
var
parser_node: Word;
tac: Word;
rtl: Word;
error_list: ElnaList;
compiled: Word;
begin
elna_list_initialize(@error_list);
parser_node := elna_parser_module_declaration(cursor, @error_list);
compiled := error_list.first = nil;
if compiled then
elna_name_module_declaration(parser_node);
elna_type_module_declaration(parser_node);
tac := elna_tac_module_declaration(parser_node);
rtl := elna_rtl_module_declaration(tac);
elna_alloc_module(rtl);
elna_riscv_module(rtl);
end;
return compiled
end;
(**
* Looks for a symbol in the given symbol table.
*
* Parameters:
* symbol_table - Symbol table.
* symbol_name - Symbol name pointer.
* name_length - Symbol name length.
*
* Returns the symbol pointer or 0 in a0.
*)
proc elna_symbol_table_lookup(symbol_table: ^ElnaSymbolTable, symbol_name: Word, name_length: Word);
var
result: Word;
symbol_table_length: Word;
current_name: Word;
current_length: Word;
begin
result := 0;
symbol_table_length := symbol_table^.count;
(* Go to the first symbol position. *)
symbol_table := symbol_table + 4;
.symbol_table_lookup_loop;
if symbol_table_length = 0 then
goto symbol_table_lookup_end
end;
(* Symbol name pointer and length. *)
current_name := symbol_table^;
current_length := symbol_table + 4;
current_length := current_length^;
(* If lengths don't match, exit and return nil. *)
if name_length <> current_length then
goto symbol_table_lookup_repeat
end;
(* If names don't match, exit and return nil. *)
if memcmp(symbol_name, current_name, name_length) then
goto symbol_table_lookup_repeat
end;
(* Otherwise, the symbol is found. *)
result := symbol_table + 8;
result := result^;
goto symbol_table_lookup_end;
.symbol_table_lookup_repeat;
symbol_table := symbol_table + 12;
symbol_table_length := symbol_table_length - 1;
goto symbol_table_lookup_loop;
.symbol_table_lookup_end;
return result
end;
(**
* Create a new local symbol table in the symbol memory region after the last
* known symbol table.
*)
proc elna_symbol_table_create();
var
new_symbol_table: ^ElnaSymbolTable;
begin
new_symbol_table := malloc(12288);
new_symbol_table^.count := 0;
return new_symbol_table
end;
(**
* Inserts a symbol into the table.
*
* Parameters:
* symbol_table - Symbol table.
* symbol_name - Symbol name pointer.
* name_length - Symbol name length.
* symbol - Symbol pointer.
*)
proc elna_symbol_table_enter(symbol_table: ^ElnaSymbolTable, symbol_name: Word, name_length: Word, symbol: Word);
var
table_length: Word;
symbol_pointer: Word;
begin
(* The first word in the symbol table is its length, get it. *)
table_length := symbol_table^;
(* Calculate the offset for the new symbol. *)
symbol_pointer := table_length * 12;
symbol_pointer := symbol_pointer + 4;
symbol_pointer := symbol_table + symbol_pointer;
symbol_pointer^ := symbol_name;
symbol_pointer := symbol_pointer + 4;
symbol_pointer^ := name_length;
symbol_pointer := symbol_pointer + 4;
symbol_pointer^ := symbol;
(* Increment the symbol table length. *)
table_length := table_length + 1;
symbol_table^ := table_length
end;
proc elna_symbol_table_build();
var
current_info: ^ElnaSymbolTypeInfo;
current_type: ^ElnaType;
begin
(* Set the table length to 0. *)
symbol_table_global := 0;
(* Enter built-in symbols. *)
word_type := malloc(#size(ElnaType));
word_type^.kind := ElnaTypeKind.primitive;
word_type^.size := 4;
current_info := _type_info_create(word_type);
elna_symbol_table_enter(@symbol_table_global, "Word", 4, current_info);
current_type := malloc(#size(ElnaType));
current_type^.kind := ElnaTypeKind.primitive;
current_type^.size := 4;
current_info := _type_info_create(current_type);
elna_symbol_table_enter(@symbol_table_global, "Pointer", 7, current_info);
current_type := malloc(#size(ElnaType));
current_type^.kind := ElnaTypeKind.primitive;
current_type^.size := 1;
current_info := _type_info_create(current_type);
elna_symbol_table_enter(@symbol_table_global, "Bool", 4, current_info);
end;
(**
* Initializes the array with character classes.
*)
proc elna_lexer_classifications();
var
code: Word;
begin
code := 1;
(* Set everything by default to invalid. *)
.elna_lexer_classifications_invalid;
classification[code] := ElnaLexerClass.invalid;
code := code + 1;
if code < 129 then
goto elna_lexer_classifications_invalid
end;
classification[1] := ElnaLexerClass.eof;
classification[10] := ElnaLexerClass.space;
classification[11] := ElnaLexerClass.space;
classification[14] := ElnaLexerClass.space;
classification[33] := ElnaLexerClass.space;
classification[34] := ElnaLexerClass.single;
classification[35] := ElnaLexerClass.double_quote;
classification[36] := ElnaLexerClass.number_sign;
classification[37] := ElnaLexerClass.other;
classification[38] := ElnaLexerClass.single;
classification[39] := ElnaLexerClass.single;
classification[40] := ElnaLexerClass.single_quote;
classification[41] := ElnaLexerClass.left_paren;
classification[42] := ElnaLexerClass.right_paren;
classification[43] := ElnaLexerClass.asterisk;
classification[44] := ElnaLexerClass.single;
classification[45] := ElnaLexerClass.single;
classification[46] := ElnaLexerClass.minus;
classification[47] := ElnaLexerClass.dot;
classification[48] := ElnaLexerClass.single;
classification[49] := ElnaLexerClass.zero;
classification[50] := ElnaLexerClass.digit;
classification[51] := ElnaLexerClass.digit;
classification[52] := ElnaLexerClass.digit;
classification[53] := ElnaLexerClass.digit;
classification[54] := ElnaLexerClass.digit;
classification[55] := ElnaLexerClass.digit;
classification[56] := ElnaLexerClass.digit;
classification[57] := ElnaLexerClass.digit;
classification[58] := ElnaLexerClass.digit;
classification[59] := ElnaLexerClass.colon;
classification[60] := ElnaLexerClass.single;
classification[61] := ElnaLexerClass.less;
classification[62] := ElnaLexerClass.equals;
classification[63] := ElnaLexerClass.greater;
classification[64] := ElnaLexerClass.other;
classification[65] := ElnaLexerClass.single;
classification[66] := ElnaLexerClass.alpha;
classification[67] := ElnaLexerClass.alpha;
classification[68] := ElnaLexerClass.alpha;
classification[69] := ElnaLexerClass.alpha;
classification[70] := ElnaLexerClass.alpha;
classification[71] := ElnaLexerClass.alpha;
classification[72] := ElnaLexerClass.alpha;
classification[73] := ElnaLexerClass.alpha;
classification[74] := ElnaLexerClass.alpha;
classification[75] := ElnaLexerClass.alpha;
classification[76] := ElnaLexerClass.alpha;
classification[77] := ElnaLexerClass.alpha;
classification[78] := ElnaLexerClass.alpha;
classification[79] := ElnaLexerClass.alpha;
classification[80] := ElnaLexerClass.alpha;
classification[81] := ElnaLexerClass.alpha;
classification[82] := ElnaLexerClass.alpha;
classification[83] := ElnaLexerClass.alpha;
classification[84] := ElnaLexerClass.alpha;
classification[85] := ElnaLexerClass.alpha;
classification[86] := ElnaLexerClass.alpha;
classification[87] := ElnaLexerClass.alpha;
classification[88] := ElnaLexerClass.alpha;
classification[89] := ElnaLexerClass.alpha;
classification[90] := ElnaLexerClass.alpha;
classification[91] := ElnaLexerClass.alpha;
classification[92] := ElnaLexerClass.single;
classification[93] := ElnaLexerClass.backslash;
classification[94] := ElnaLexerClass.single;
classification[95] := ElnaLexerClass.single;
classification[96] := ElnaLexerClass.alpha;
classification[97] := ElnaLexerClass.other;
classification[98] := ElnaLexerClass.hex;
classification[99] := ElnaLexerClass.hex;
classification[100] := ElnaLexerClass.hex;
classification[101] := ElnaLexerClass.hex;
classification[102] := ElnaLexerClass.hex;
classification[103] := ElnaLexerClass.hex;
classification[104] := ElnaLexerClass.alpha;
classification[105] := ElnaLexerClass.alpha;
classification[106] := ElnaLexerClass.alpha;
classification[107] := ElnaLexerClass.alpha;
classification[108] := ElnaLexerClass.alpha;
classification[109] := ElnaLexerClass.alpha;
classification[110] := ElnaLexerClass.alpha;
classification[111] := ElnaLexerClass.alpha;
classification[112] := ElnaLexerClass.alpha;
classification[113] := ElnaLexerClass.alpha;
classification[114] := ElnaLexerClass.alpha;
classification[115] := ElnaLexerClass.alpha;
classification[116] := ElnaLexerClass.alpha;
classification[117] := ElnaLexerClass.alpha;
classification[118] := ElnaLexerClass.alpha;
classification[119] := ElnaLexerClass.alpha;
classification[120] := ElnaLexerClass.alpha;
classification[121] := ElnaLexerClass.x;
classification[122] := ElnaLexerClass.alpha;
classification[123] := ElnaLexerClass.alpha;
classification[124] := ElnaLexerClass.other;
classification[125] := ElnaLexerClass.single;
classification[126] := ElnaLexerClass.other;
classification[127] := ElnaLexerClass.single;
(* Set the remaining 129 - 256 bytes to transitionClassOther. *)
.elna_lexer_classifications_other;
classification[code] := ElnaLexerClass.other;
code := code + 1;
if code < 257 then
goto elna_lexer_classifications_other
end
end;
proc elna_lexer_get_transition(current_state: Word, character_class: Word);
var
column_position: Word;
target: Word;
begin
(* Each state is 8 bytes long (2 words: action and next state).
There are 23 character classes, so a transition row 8 * 23 = 184 bytes long. *)
column_position := character_class - 1;
column_position := column_position * 8;
target := @transition_table[current_state];
return target + column_position
end;
(**
* Parameters:
* current_state - First index into transitions table.
* character_class - Second index into transitions table.
* action - Action to assign.
* next_state - Next state to assign.
*)
proc elna_lexer_set_transition(current_state: Word, character_class: Word, action: Word, next_state: ElnaLexerState);
var
transition: ^ElnaLexerTransition;
begin
transition := elna_lexer_get_transition(current_state, character_class);
transition^.action := action;
transition^.next_state := next_state
end;
(* Sets same action and state transition for all character classes in one transition row. *)
(**
* Parameters:
* current_state - Current state (Transition state enumeration).
* default_action - Default action (Callback).
* next_state - Next state (Transition state enumeration).
*)
proc elna_lexer_default_transition(current_state: Word, default_action: Word, next_state: ElnaLexerState);
begin
elna_lexer_set_transition(current_state, ElnaLexerClass.invalid, default_action, next_state);
elna_lexer_set_transition(current_state, ElnaLexerClass.digit, default_action, next_state);
elna_lexer_set_transition(current_state, ElnaLexerClass.alpha, default_action, next_state);
elna_lexer_set_transition(current_state, ElnaLexerClass.space, default_action, next_state);
elna_lexer_set_transition(current_state, ElnaLexerClass.colon, default_action, next_state);
elna_lexer_set_transition(current_state, ElnaLexerClass.equals, default_action, next_state);
elna_lexer_set_transition(current_state, ElnaLexerClass.left_paren, default_action, next_state);
elna_lexer_set_transition(current_state, ElnaLexerClass.right_paren, default_action, next_state);
elna_lexer_set_transition(current_state, ElnaLexerClass.asterisk, default_action, next_state);
elna_lexer_set_transition(current_state, ElnaLexerClass.backslash, default_action, next_state);
elna_lexer_set_transition(current_state, ElnaLexerClass.single, default_action, next_state);
elna_lexer_set_transition(current_state, ElnaLexerClass.hex, default_action, next_state);
elna_lexer_set_transition(current_state, ElnaLexerClass.zero, default_action, next_state);
elna_lexer_set_transition(current_state, ElnaLexerClass.x, default_action, next_state);
elna_lexer_set_transition(current_state, ElnaLexerClass.eof, default_action, next_state);
elna_lexer_set_transition(current_state, ElnaLexerClass.dot, default_action, next_state);
elna_lexer_set_transition(current_state, ElnaLexerClass.minus, default_action, next_state);
elna_lexer_set_transition(current_state, ElnaLexerClass.single_quote, default_action, next_state);
elna_lexer_set_transition(current_state, ElnaLexerClass.double_quote, default_action, next_state);
elna_lexer_set_transition(current_state, ElnaLexerClass.greater, default_action, next_state);
elna_lexer_set_transition(current_state, ElnaLexerClass.less, default_action, next_state);
elna_lexer_set_transition(current_state, ElnaLexerClass.other, default_action, next_state);
elna_lexer_set_transition(current_state, ElnaLexerClass.number_sign, default_action, next_state)
end;
(**
* The transition table describes transitions from one state to another, given
* a symbol (character class).
*
* The table has m rows and n columns, where m is the amount of states and n is
* the amount of classes. So given the current state and a classified character
* the table can be used to look up the next state.
*)
proc elna_lexer_transitions();
begin
(* Start state. *)
elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.invalid, ElnaLexerAction.none, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.digit, ElnaLexerAction.accumulate, ElnaLexerState.decimal);
elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.alpha, ElnaLexerAction.accumulate, ElnaLexerState.identifier);
elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.space, ElnaLexerAction.skip, ElnaLexerState.start);
elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.colon, ElnaLexerAction.accumulate, ElnaLexerState.colon);
elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.equals, ElnaLexerAction.single, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.left_paren, ElnaLexerAction.accumulate, ElnaLexerState.left_paren);
elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.right_paren, ElnaLexerAction.single, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.asterisk, ElnaLexerAction.single, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.backslash, ElnaLexerAction.none, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.single, ElnaLexerAction.single, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.hex, ElnaLexerAction.accumulate, ElnaLexerState.identifier);
elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.zero, ElnaLexerAction.accumulate, ElnaLexerState.leading_zero);
elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.x, ElnaLexerAction.accumulate, ElnaLexerState.identifier);
elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.eof, ElnaLexerAction.eof, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.dot, ElnaLexerAction.single, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.minus, ElnaLexerAction.accumulate, ElnaLexerState.minus);
elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.single_quote, ElnaLexerAction.accumulate, ElnaLexerState.character);
elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.double_quote, ElnaLexerAction.accumulate, ElnaLexerState.string);
elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.greater, ElnaLexerAction.accumulate, ElnaLexerState.greater);
elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.less, ElnaLexerAction.accumulate, ElnaLexerState.less);
elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.other, ElnaLexerAction.none, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.start, ElnaLexerClass.number_sign, ElnaLexerAction.accumulate, ElnaLexerState.number_sign);
(* Colon state. *)
elna_lexer_default_transition(ElnaLexerState.colon, ElnaLexerAction.finalize, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.colon, ElnaLexerClass.equals, ElnaLexerAction.composite, ElnaLexerState.finish);
(* Identifier state. *)
elna_lexer_default_transition(ElnaLexerState.identifier, ElnaLexerAction.key_id, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.identifier, ElnaLexerClass.digit, ElnaLexerAction.accumulate, ElnaLexerState.identifier);
elna_lexer_set_transition(ElnaLexerState.identifier, ElnaLexerClass.alpha, ElnaLexerAction.accumulate, ElnaLexerState.identifier);
elna_lexer_set_transition(ElnaLexerState.identifier, ElnaLexerClass.hex, ElnaLexerAction.accumulate, ElnaLexerState.identifier);
elna_lexer_set_transition(ElnaLexerState.identifier, ElnaLexerClass.zero, ElnaLexerAction.accumulate, ElnaLexerState.identifier);
elna_lexer_set_transition(ElnaLexerState.identifier, ElnaLexerClass.x, ElnaLexerAction.accumulate, ElnaLexerState.identifier);
(* Decimal state. *)
elna_lexer_default_transition(ElnaLexerState.decimal, ElnaLexerAction.integer, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.decimal, ElnaLexerClass.digit, ElnaLexerAction.accumulate, ElnaLexerState.decimal);
elna_lexer_set_transition(ElnaLexerState.decimal, ElnaLexerClass.alpha, ElnaLexerAction.none, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.decimal, ElnaLexerClass.hex, ElnaLexerAction.none, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.decimal, ElnaLexerClass.zero, ElnaLexerAction.accumulate, ElnaLexerState.decimal);
elna_lexer_set_transition(ElnaLexerState.decimal, ElnaLexerClass.x, ElnaLexerAction.none, ElnaLexerState.finish);
(* Leading zero. *)
elna_lexer_default_transition(ElnaLexerState.leading_zero, ElnaLexerAction.integer, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.leading_zero, ElnaLexerClass.digit, ElnaLexerAction.none, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.leading_zero, ElnaLexerClass.alpha, ElnaLexerAction.none, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.leading_zero, ElnaLexerClass.hex, ElnaLexerAction.none, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.leading_zero, ElnaLexerClass.zero, ElnaLexerAction.none, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.leading_zero, ElnaLexerClass.x, ElnaLexerAction.none, ElnaLexerState.dot);
(* Greater state. *)
elna_lexer_default_transition(ElnaLexerState.greater, ElnaLexerAction.finalize, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.greater, ElnaLexerClass.equals, ElnaLexerAction.composite, ElnaLexerState.finish);
(* Minus state. *)
elna_lexer_default_transition(ElnaLexerState.minus, ElnaLexerAction.finalize, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.minus, ElnaLexerClass.greater, ElnaLexerAction.composite, ElnaLexerState.finish);
(* Left paren state. *)
elna_lexer_default_transition(ElnaLexerState.left_paren, ElnaLexerAction.finalize, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.left_paren, ElnaLexerClass.asterisk, ElnaLexerAction.accumulate, ElnaLexerState.comment);
(* Less state. *)
elna_lexer_default_transition(ElnaLexerState.less, ElnaLexerAction.finalize, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.less, ElnaLexerClass.equals, ElnaLexerAction.composite, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.less, ElnaLexerClass.greater, ElnaLexerAction.composite, ElnaLexerState.finish);
(* Hexadecimal after 0x. *)
elna_lexer_default_transition(ElnaLexerState.dot, ElnaLexerAction.finalize, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.dot, ElnaLexerClass.dot, ElnaLexerAction.composite, ElnaLexerState.finish);
(* Comment. *)
elna_lexer_default_transition(ElnaLexerState.comment, ElnaLexerAction.accumulate, ElnaLexerState.comment);
elna_lexer_set_transition(ElnaLexerState.comment, ElnaLexerClass.asterisk, ElnaLexerAction.accumulate, ElnaLexerState.closing_comment);
elna_lexer_set_transition(ElnaLexerState.comment, ElnaLexerClass.eof, ElnaLexerAction.none, ElnaLexerState.finish);
(* Closing comment. *)
elna_lexer_default_transition(ElnaLexerState.closing_comment, ElnaLexerAction.accumulate, ElnaLexerState.comment);
elna_lexer_set_transition(ElnaLexerState.closing_comment, ElnaLexerClass.invalid, ElnaLexerAction.none, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.closing_comment, ElnaLexerClass.right_paren, ElnaLexerAction.delimited, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.closing_comment, ElnaLexerClass.asterisk, ElnaLexerAction.accumulate, ElnaLexerState.closing_comment);
elna_lexer_set_transition(ElnaLexerState.closing_comment, ElnaLexerClass.eof, ElnaLexerAction.none, ElnaLexerState.finish);
(* Character. *)
elna_lexer_default_transition(ElnaLexerState.character, ElnaLexerAction.accumulate, ElnaLexerState.character);
elna_lexer_set_transition(ElnaLexerState.character, ElnaLexerClass.invalid, ElnaLexerAction.none, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.character, ElnaLexerClass.eof, ElnaLexerAction.none, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.character, ElnaLexerClass.single_quote, ElnaLexerAction.delimited, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.character, ElnaLexerClass.backslash, ElnaLexerAction.accumulate, ElnaLexerState.character_escape);
(* Escape sequence in a character. *)
elna_lexer_default_transition(ElnaLexerState.character_escape, ElnaLexerAction.accumulate, ElnaLexerState.character);
elna_lexer_set_transition(ElnaLexerState.character_escape, ElnaLexerClass.invalid, ElnaLexerAction.none, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.character_escape, ElnaLexerClass.eof, ElnaLexerAction.none, ElnaLexerState.finish);
(* String. *)
elna_lexer_default_transition(ElnaLexerState.string, ElnaLexerAction.accumulate, ElnaLexerState.string);
elna_lexer_set_transition(ElnaLexerState.string, ElnaLexerClass.invalid, ElnaLexerAction.none, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.string, ElnaLexerClass.eof, ElnaLexerAction.none, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.string, ElnaLexerClass.double_quote, ElnaLexerAction.delimited, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.string, ElnaLexerClass.backslash, ElnaLexerAction.accumulate, ElnaLexerState.string_escape);
(* Escape sequence in a string. *)
elna_lexer_default_transition(ElnaLexerState.string_escape, ElnaLexerAction.accumulate, ElnaLexerState.string);
elna_lexer_set_transition(ElnaLexerState.string_escape, ElnaLexerClass.invalid, ElnaLexerAction.none, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.string_escape, ElnaLexerClass.eof, ElnaLexerAction.none, ElnaLexerState.finish);
(* Number sign state. *)
elna_lexer_default_transition(ElnaLexerState.number_sign, ElnaLexerAction.key_id, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.number_sign, ElnaLexerClass.alpha, ElnaLexerAction.accumulate, ElnaLexerState.trait);
elna_lexer_set_transition(ElnaLexerState.number_sign, ElnaLexerClass.hex, ElnaLexerAction.accumulate, ElnaLexerState.trait);
elna_lexer_set_transition(ElnaLexerState.number_sign, ElnaLexerClass.x, ElnaLexerAction.accumulate, ElnaLexerState.trait);
(* Trait state. *)
elna_lexer_default_transition(ElnaLexerState.trait, ElnaLexerAction.key_id, ElnaLexerState.finish);
elna_lexer_set_transition(ElnaLexerState.trait, ElnaLexerClass.digit, ElnaLexerAction.accumulate, ElnaLexerState.trait);
elna_lexer_set_transition(ElnaLexerState.trait, ElnaLexerClass.alpha, ElnaLexerAction.accumulate, ElnaLexerState.trait);
elna_lexer_set_transition(ElnaLexerState.trait, ElnaLexerClass.hex, ElnaLexerAction.accumulate, ElnaLexerState.trait);
elna_lexer_set_transition(ElnaLexerState.trait, ElnaLexerClass.zero, ElnaLexerAction.accumulate, ElnaLexerState.trait);
elna_lexer_set_transition(ElnaLexerState.trait, ElnaLexerClass.x, ElnaLexerAction.accumulate, ElnaLexerState.trait)
end;
(**
* One time lexer initialization.
*)
proc elna_lexer_initialize(cursor: ^ElnaLexerCursor, code_pointer: Word);
begin
elna_lexer_classifications();
elna_lexer_transitions();
cursor^.start := code_pointer;
cursor^.finish := code_pointer;
cursor^.token := nil;
cursor^.position.start_location.line := 1;
cursor^.position.start_location.column := 1;
cursor^.position.end_location.line := 1;
cursor^.position.end_location.column := 1
end;
proc string_compare(lhs_pointer: Word, lhs_length: Word, rhs_pointer: Word, rhs_length: Word);
var
result: Word;
begin
result := 0;
if lhs_length = rhs_length then
result := memcmp(lhs_pointer, rhs_pointer, lhs_length);
result := result = 0
end;
return result
end;
proc elna_lexer_token_create(kind: ElnaLexerKind, position: ^ElnaPosition) -> ^ElnaLexerToken;
var
result: ^ElnaLexerToken;
begin
result := malloc(#size(ElnaLexerToken));
result^.kind := kind;
memcpy(@result^.position, position, #size(ElnaPosition));
return result
end;
proc elna_lexer_classify_keyword(position_start: Word, position_end: Word, position: ^ElnaPosition) -> ^ElnaLexerToken;
var
result: ^ElnaLexerToken;
begin
result := elna_lexer_token_create(ElnaLexerKind.identifier, position);
result^.start := position_start;
result^.length := position_end - position_start;
if _load_byte(position_start) = '#' then
result^.kind := ElnaLexerKind.trait
elsif string_compare(position_start, result^.length, "const", 5) then
result^.kind := ElnaLexerKind._const
elsif string_compare(position_start, result^.length, "var", 3) then
result^.kind := ElnaLexerKind._var
elsif string_compare(position_start, result^.length, "proc", 4) then
result^.kind := ElnaLexerKind._proc
elsif string_compare(position_start, result^.length, "type", 4) then
result^.kind := ElnaLexerKind._type
elsif string_compare(position_start, result^.length, "begin", 5) then
result^.kind := ElnaLexerKind._begin
elsif string_compare(position_start, result^.length, "end", 3) then
result^.kind := ElnaLexerKind._end
elsif string_compare(position_start, result^.length, "return", 6) then
result^.kind := ElnaLexerKind._return
elsif string_compare(position_start, result^.length, "goto", 4) then
result^.kind := ElnaLexerKind._goto
elsif string_compare(position_start, result^.length, "if", 2) then
result^.kind := ElnaLexerKind._if
elsif string_compare(position_start, result^.length, "while", 5) then
result^.kind := ElnaLexerKind._while
elsif string_compare(position_start, result^.length, "then", 4) then
result^.kind := ElnaLexerKind._then
elsif string_compare(position_start, result^.length, "else", 4) then
result^.kind := ElnaLexerKind._else
elsif string_compare(position_start, result^.length, "elsif", 5) then
result^.kind := ElnaLexerKind._elsif
elsif string_compare(position_start, result^.length, "record", 6) then
result^.kind := ElnaLexerKind._record
elsif string_compare(position_start, result^.length, "or", 2) then
result^.kind := ElnaLexerKind._or
elsif string_compare(position_start, result^.length, "xor", 3) then
result^.kind := ElnaLexerKind._xor
elsif string_compare(position_start, result^.length, "program", 7) then
result^.kind := ElnaLexerKind._program
elsif string_compare(position_start, result^.length, "module", 6) then
result^.kind := ElnaLexerKind._module
elsif string_compare(position_start, result^.length, "nil", 3) then
result^.kind := ElnaLexerKind.null
elsif string_compare(position_start, result^.length, "true", 4) then
result^.kind := ElnaLexerKind.boolean
elsif string_compare(position_start, result^.length, "false", 5) then
result^.kind := ElnaLexerKind.boolean
end;
return result
end;
proc elna_lexer_classify_finalize(start_position: Word, position: ^ElnaPosition) -> ^ElnaLexerToken;
var
character: Word;
result: ^ElnaLexerToken;
begin
character := _load_byte(start_position);
if character = ':' then
result := elna_lexer_token_create(ElnaLexerKind.colon, position)
elsif character = '.' then
result := elna_lexer_token_create(ElnaLexerKind.dot, position)
elsif character = '(' then
result := elna_lexer_token_create(ElnaLexerKind.left_paren, position)
elsif character = '-' then
result := elna_lexer_token_create(ElnaLexerKind.minus, position)
elsif character = '<' then
result := elna_lexer_token_create(ElnaLexerKind.less_than, position)
elsif character = '>' then
result := elna_lexer_token_create(ElnaLexerKind.greater_than, position)
end;
return result
end;
proc elna_lexer_classify_single(start_position: Word, position: ^ElnaPosition) -> ^ElnaLexerToken;
var
character: Word;
result: ^ElnaLexerToken;
begin
result := malloc(#size(ElnaLexerToken));
character := _load_byte(start_position);
if character = ';' then
result := elna_lexer_token_create(ElnaLexerKind.semicolon, position)
elsif character = ',' then
result := elna_lexer_token_create(ElnaLexerKind.comma, position)
elsif character = ')' then
result := elna_lexer_token_create(ElnaLexerKind.right_paren, position)
elsif character = '@' then
result := elna_lexer_token_create(ElnaLexerKind.at, position)
elsif character = '~' then
result := elna_lexer_token_create(ElnaLexerKind.not, position)
elsif character = '&' then
result := elna_lexer_token_create(ElnaLexerKind.and, position)
elsif character = '+' then
result := elna_lexer_token_create(ElnaLexerKind.plus, position)
elsif character = '*' then
result := elna_lexer_token_create(ElnaLexerKind.multiplication, position)
elsif character = '=' then
result := elna_lexer_token_create(ElnaLexerKind.equals, position)
elsif character = '%' then
result := elna_lexer_token_create(ElnaLexerKind.remainder, position)
elsif character = '/' then
result := elna_lexer_token_create(ElnaLexerKind.division, position)
elsif character = '.' then
result := elna_lexer_token_create(ElnaLexerKind.dot, position)
elsif character = '^' then
result := elna_lexer_token_create(ElnaLexerKind.hat, position)
elsif character = '[' then
result := elna_lexer_token_create(ElnaLexerKind.left_square, position)
elsif character = ']' then
result := elna_lexer_token_create(ElnaLexerKind.right_square, position)
end;
return result
end;
proc elna_lexer_classify_composite(start_position: Word, one_before_last: Word, position: ^ElnaPosition) -> ^ElnaLexerToken;
var
first_character: Word;
last_character: Word;
result: ^ElnaLexerToken;
begin
first_character := _load_byte(start_position);
last_character := _load_byte(one_before_last);
if first_character = ':' then
result := elna_lexer_token_create(ElnaLexerKind.assignment, position)
elsif first_character = '<' then
if last_character = '=' then
result := elna_lexer_token_create(ElnaLexerKind.less_equal, position)
elsif last_character = '>' then
result := elna_lexer_token_create(ElnaLexerKind.not_equal, position)
end
elsif first_character = '>' then
if last_character = '=' then
result := elna_lexer_token_create(ElnaLexerKind.greater_equal, position)
end
elsif first_character = '-' then
result := elna_lexer_token_create(ElnaLexerKind.arrow, position)
end;
return result
end;
proc elna_lexer_classify_delimited(start_position: Word, end_position: Word, position: ^ElnaPosition) -> ^ElnaLexerToken;
var
delimiter: Word;
result: ^ElnaLexerToken;
begin
delimiter := _load_byte(start_position);
if delimiter = '(' then
result := elna_lexer_token_create(ElnaLexerKind.comment, position)
elsif delimiter = '\'' then
result := elna_lexer_token_create(ElnaLexerKind.character, position)
elsif delimiter = '"' then
result := elna_lexer_token_create(ElnaLexerKind.string, position)
end;
result^.start := start_position;
result^.length := end_position - start_position;
return result
end;
proc elna_lexer_classify_integer(start_position: Word, end_position: Word, position: ^ElnaPosition) -> ^ElnaLexerToken;
var
result: ^ElnaLexerToken;
begin
result := elna_lexer_token_create(ElnaLexerKind.integer, position);
result^.start := start_position;
result^.length := end_position - start_position;
return result
end;
proc elna_lexer_execute_action(cursor: ^ElnaLexerCursor, action_to_perform: Word) -> ^ElnaLexerToken;
var
token: ^ElnaLexerToken;
begin
token := nil;
if action_to_perform = ElnaLexerAction.none then
elsif action_to_perform = ElnaLexerAction.accumulate then
elna_lexer_advance(cursor)
elsif action_to_perform = ElnaLexerAction.skip then
elna_lexer_classify_space(cursor^.start, @cursor^.position.end_location);
cursor^.start := cursor^.start + 1;
cursor^.finish := cursor^.finish + 1
elsif action_to_perform = ElnaLexerAction.single then
elna_lexer_advance(cursor);
token := elna_lexer_classify_single(cursor^.start, @cursor^.position)
elsif action_to_perform = ElnaLexerAction.eof then
token := malloc(#size(ElnaLexerToken));
token^.kind := ElnaLexerKind.eof
elsif action_to_perform = ElnaLexerAction.finalize then
token := elna_lexer_classify_finalize(cursor^.start, @cursor^.position)
elsif action_to_perform = ElnaLexerAction.composite then
token := elna_lexer_classify_composite(cursor^.start, cursor^.finish, @cursor^.position);
elna_lexer_advance(cursor)
elsif action_to_perform = ElnaLexerAction.key_id then
token := elna_lexer_classify_keyword(cursor^.start, cursor^.finish, @cursor^.position)
elsif action_to_perform = ElnaLexerAction.integer then
token := elna_lexer_classify_integer(cursor^.start, cursor^.finish, @cursor^.position)
elsif action_to_perform = ElnaLexerAction.delimited then
elna_lexer_advance(cursor);
token := elna_lexer_classify_delimited(cursor^.start, cursor^.finish, @cursor^.position)
end;
return token
end;
proc elna_lexer_execute_transition(cursor: ^ElnaLexerCursor, kind: ^ElnaLexerKind) -> ^ElnaLexerToken;
var
next_transition: ^ElnaLexerTransition;
current_character: Word;
begin
current_character := _load_byte(cursor^.finish);
next_transition := elna_lexer_get_transition(cursor^.state, classification[current_character + 1]);
cursor^.state := next_transition^.next_state;
return elna_lexer_execute_action(cursor, next_transition^.action, kind)
end;
proc elna_lexer_classify_space(start_position: Word, location: ^ElnaLocation);
var
character: Word;
begin
character := _load_byte(start_position);
if character = '\n' then
location^.line := location^.line + 1;
location^.column := 1
else
location^.column := location^.column + 1
end
end;
proc elna_lexer_advance(cursor: ^ElnaLexerCursor);
begin
cursor^.finish := cursor^.finish + 1;
cursor^.position.end_location.column := cursor^.position.end_location.column + 1
end;
(**
* Reads the next token and writes its type into the address in the kind parameter.
* Resets the lexer state for reading the next token.
*)
proc elna_lexer_peek(cursor: ^ElnaLexerCursor) -> ^ElnaLexerToken;
var
token: ^ElnaLexerToken;
begin
if cursor^.token = nil then
cursor^.state := ElnaLexerState.start;
.elna_lexer_peek_loop;
token := elna_lexer_execute_transition(cursor);
if cursor^.state <> ElnaLexerState.finish then
goto elna_lexer_peek_loop
end;
cursor^.token := token
end;
return cursor^.token
end;
(**
* Reads the token and advance the lexer.
*)
proc elna_lexer_read(cursor: ^ElnaLexerCursor) -> ^ElnaLexerToken;
var
token: ^ElnaLexerToken;
begin
token := elna_lexer_peek(cursor);
cursor^.token := nil;
cursor^.start := cursor^.finish;
memcpy(@cursor^.position.start_location, @cursor^.position.end_location, #size(ElnaLocation));
return token
end;
proc _initialize_global_state();
begin
compiler_strings_position := @compiler_strings;
source_code := malloc(495616)
end;
(*
* Entry point.
*)
proc main();
var
last_read: Word;
offset: Word;
lexer_state: ElnaLexerCursor;
begin
_initialize_global_state();
elna_lexer_initialize(@lexer_state, source_code);
elna_symbol_table_build();
(* Read the source from the standard input. *)
offset := source_code;
.start_read;
(* Second argument is buffer size. Modifying update the source_code definition. *)
last_read := read(0, offset, 409600);
if last_read > 0 then
offset := offset + last_read;
goto start_read
end;
if _compile(@lexer_state) then
exit(0)
else
exit(4)
end
end;
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