program # s1 - Contains the current position in the source text. const SOURCE_BUFFER_SIZE := 20480 var source_code: [20480]Byte .section .text # Evalutes an expression and saves the result in a0. proc _build_expression() begin _skip_spaces() call _read_token sw s1, 20(sp) sw a0, 16(sp) # Integer literal. addi a0, s1, 0 lb a0, (a0) call _is_digit bnez a0, .Lbuild_expression_number_literal # Named identifier. li t0, 0x202c30 # 0,_ sw t0, 12(sp) li t0, 0x6120616c # la a sw t0, 8(sp) addi a0, sp, 8 li a1, 7 call _write_out lw a0, 20(sp) lw a1, 16(sp) call _write_out li t0, 0x0a # \n sw t0, 12(sp) addi a0, sp, 12 li a1, 1 call _write_out j .Lbuild_expression_end .Lbuild_expression_number_literal: li t0, 0x202c30 # 0,_ sw t0, 12(sp) li t0, 0x6120696c # li a sw t0, 8(sp) addi a0, sp, 8 li a1, 7 call _write_out lw a0, 20(sp) lw a1, 16(sp) call _write_out li t0, 0x0a # \n sw t0, 12(sp) addi a0, sp, 12 li a1, 1 call _write_out j .Lbuild_expression_end .Lbuild_expression_end: lw a0, 16(sp) add s1, s1, a0 end # Compiles a statement beginning with an identifier. # # Left values should be variables named "loca n", where n is the offset # of the variable on the stack, like loca8 or loca4. proc _compile_identifier() begin call _read_token # Save the pointer to the identifier and its length on the stack. sw s1, 20(sp) sw a0, 16(sp) add s1, s1, a0 _skip_spaces() call _read_token # Save the pointer and the length of the token following the identifier. sw s1, 12(sp) sw a0, 8(sp) add s1, s1, a0 # Skip that token. _skip_spaces() li t0, 0x3d3a # := sw t0, 4(sp) lw a0, 12(sp) lw a1, 8(sp) addi a2, sp, 4 call _token_compare beqz a0, .Lcompile_identifier_assign /* DEBUG mv a0, s1 li a1, 4 call _write_error */ lw t0, 12(sp) lbu t0, (t0) li t1, 0x28 # ( beq t0, t1, .Lcompile_identifier_call j .Lcompile_identifier_end .Lcompile_identifier_call: lw a0, 20(sp) lw a1, 16(sp) call _compile_call j .Lcompile_identifier_end .Lcompile_identifier_assign: call _build_expression li t0, 0x202c30 # 0,_ sw t0, 12(sp) li t0, 0x61207773 # sw a sw t0, 8(sp) addi a0, sp, 8 li a1, 7 call _write_out lw a0, 20(sp) lw a1, 16(sp) addi a0, a0, 4 # Skip the "loca" variable prefix. addi a1, a1, -4 # Skip the "loca" variable prefix. call _write_out li t0, 0x0a # \n sw t0, 12(sp) li t0, 0x29707328 # (sp) sw t0, 8(sp) addi a0, sp, 8 li a1, 5 call _write_out j .Lcompile_identifier_end .Lcompile_identifier_end: end # Compiles a procedure call. Expects s1 to point to the first argument. # a0 - Pointer to the procedure name. # a1 - Length of the procedure name. # # Returns the procedure result in a0. proc _compile_call() begin sw a0, 20(sp) sw a1, 16(sp) sw zero, 12(sp) # Argument count for a procedure call. .Lcompile_call_paren: _skip_spaces() call _read_token lbu t0, (s1) li t1, 0x29 # ) beq t0, t1, .Lcompile_call_complete .Lcompile_call_argument: call _build_expression li t0, 0x202c30 # 0,_ sw t0, 8(sp) li t0, 0x61207773 # sw a sw t0, 4(sp) addi a0, sp, 4 li a1, 7 call _write_out lw t0, 12(sp) # Argument count for a procedure call. # Only 8 arguments are supported with a0-a7. # Save all arguments on the stack so they aren't overriden afterwards. # The offset on the stack always has two digits in this case. li t1, -4 mul t1, t0, t1 addi t1, t1, 84 li t2, 10 div t3, t1, t2 rem t4, t1, t2 addi t3, t3, '0' addi t4, t4, '0' sw t3, 8(sp) sw t4, 4(sp) addi a0, sp, 8 li a1, 1 call _write_out addi a0, sp, 4 li a1, 1 call _write_out li t0, 0x0a # \n sw t0, 8(sp) li t0, 0x29707328 # (sp) sw t0, 4(sp) addi a0, sp, 4 li a1, 5 call _write_out _skip_spaces() call _read_token lbu t0, (s1) li t1, ',' bne t0, t1, .Lcompile_call_paren lw t0, 12(sp) # Argument count for a procedure call. addi t0, t0, 1 sw t0, 12(sp) _advance(1) # Skip the comma between the arguments. j .Lcompile_call_argument .Lcompile_call_complete: sw zero, 12(sp) .Lcompile_call_restore: # Just go through all a0-a7 registers and read them from stack. # If this stack value contains garbage, the procedure just shouldn't use it. lw t0, 12(sp) li t1, 7 bgt t0, t1, .Lcompile_call_perform li t0, 0x6120776c # lw a sw t0, 4(sp) addi a0, sp, 4 li a1, 4 call _write_out lw t0, 12(sp) # Argument count for a procedure call. li t1, -4 mul t1, t0, t1 addi t1, t1, 84 li t2, 10 div t3, t1, t2 rem t4, t1, t2 addi t3, t3, '0' addi t4, t4, '0' addi t0, t0, '0' li t5, 0x0a # \n sb t5, 11(sp) li t5, 0x29707328 # (sp) sw t5, 7(sp) sb t4, 6(sp) sb t3, 5(sp) li t5, 0x202c # ,_ sh t5, 3(sp) sb t0, 2(sp) addi a0, sp, 2 li a1, 10 call _write_out lw t0, 12(sp) # Increment. addi t0, t0, 1 sw t0, 12(sp) j .Lcompile_call_restore .Lcompile_call_perform: li t0, 0x20 sw t0, 8(sp) li t0, 0x6c6c6163 sw t0, 4(sp) addi a0, sp, 4 li a1, 5 call _write_out lw a0, 20(sp) lw a1, 16(sp) call _write_out li t0, 0x0a # \n sw t0, 8(sp) addi a0, sp, 8 li a1, 1 call _write_out _skip_spaces() _advance(1) # Skip the close paren. end # Reads a token and returns its length in a0. # _read_token doesn't change s1, it finds the length of the token s1 is pointing to. proc _read_token() begin lbu t0, (s1) # t0 = Current character. sw zero, 4(sp) li t1, '.' beq t0, t1, .Ltoken_character_single li t1, ',' beq t0, t1, .Ltoken_character_single li t1, ':' beq t0, t1, .Ltoken_character_colon li t1, ';' beq t0, t1, .Ltoken_character_single li t1, '(' beq t0, t1, .Ltoken_character_single li t1, ')' beq t0, t1, .Ltoken_character_single li t1, '[' beq t0, t1, .Ltoken_character_single li t1, ']' beq t0, t1, .Ltoken_character_single .Ltoken_character_loop_do: # Expect an identifier or a number. lw t6, 4(sp) add t1, s1, t6 lbu a0, (t1) # a0 = Current character. call _is_alnum beqz a0, .Ltoken_character_end lw t6, 4(sp) addi t6, t6, 1 sw t6, 4(sp) j .Ltoken_character_loop_do .Ltoken_character_single: lw t6, 4(sp) addi t6, t6, 1 sw t6, 4(sp) j .Ltoken_character_end .Ltoken_character_colon: lbu t0, 1(s1) # t0 = The character after the colon. lw t6, 4(sp) addi t6, t6, 1 sw t6, 4(sp) li t1, '=' beq t0, t1, .Ltoken_character_single j .Ltoken_character_end .Ltoken_character_end: lw a0, 4(sp) end # Skips the spaces till the next non space character. proc _skip_spaces() begin .Lspace_loop_do: lbu t0, (s1) # t0 = Current character. li t1, ' ' beq t0, t1, .Lspace_loop_repeat li t1, '\t' beq t0, t1, .Lspace_loop_repeat li t1, '\n' beq t0, t1, .Lspace_loop_repeat li t1, '\r' beq t0, t1, .Lspace_loop_repeat j .Lspace_loop_end .Lspace_loop_repeat: _advance(1) j .Lspace_loop_do .Lspace_loop_end: end # Skips tabs at the line beginning. proc _skip_indentation() begin .Lskip_indentation_do: lbu t0, (s1) li t1, '\t' beq t0, t1, .Lskip_indentation_skip j .Lskip_indentation_end .Lskip_indentation_skip: _advance(1) j .Lskip_indentation_do .Lskip_indentation_end: end # Parameters: # a0 - Line length. proc _skip_comment() begin add s1, s1, a0 _advance(1) # Skip the new line. end # Parameters: # a0 - Line length. proc _compile_assembly() begin sw a0, 4(sp) # a0 - Line length. # Write the source to the standard output. mv a0, s1 lw a1, 4(sp) call _write_out lw t0, 4(sp) add s1, s1, t0 li t0, '\n' sb t0, 0(sp) addi a0, sp, 0 li a1, 1 call _write_out _advance(1) # Skip the new line. end proc _compile_program() begin # .global _start li t0, 0x0a7472 # rt\n sw t0, 20(sp) li t0, 0x6174735f # _sta sw t0, 16(sp) li t0, 0x206c6162 # bal_ sw t0, 12(sp) li t0, 0x6f6c672e # .glo sw t0, 8(sp) addi a0, sp, 8 li a1, 15 call _write_out _advance(8) # program\n. end proc _compile_constant_section() begin # .section .rodata li t0, 0x0a # \n sw t0, 20(sp) li t0, 0x61746164 # data sw t0, 16(sp) li t0, 0x6f722e20 # _.ro sw t0, 12(sp) li t0, 0x6e6f6974 # tion sw t0, 8(sp) li t0, 0x6365732e # .sec sw t0, 4(sp) addi a0, sp, 4 li a1, 17 call _write_out _advance(6) # const\n. .Lcompile_constant_section_item: _skip_spaces() lbu a0, (s1) call _is_upper beqz a0, .Lcompile_constant_section_end call _compile_constant j .Lcompile_constant_section_item .Lcompile_constant_section_end: end proc _compile_constant() begin call _read_token mv a1, a0 # The identifier length from _read_token should be in a1. mv a0, s1 # Save the identifier pointer before advancing it. add s1, s1, a1 call _write_out _skip_spaces() call _read_token _advance(2) # Skip the assignment sign. # : .long li t0, 0x20676e6f # ong_ sw t0, 4(sp) li t0, 0x6c2e203a # : .l sw t0, 0(sp) mv a0, sp li a1, 8 call _write_out _skip_spaces() call _read_token mv a1, a0 # The literal length from _read_token should be in a1. mv a0, s1 # Save the literal pointer before advancing it. add s1, s1, a1 call _write_out li t0, '\n' sw t0, 4(sp) addi a0, sp, 4 li a1, 1 call _write_out end proc _compile_variable_section() begin # .section .bss li t0, 0x0a73 # s\n sw t0, 12(sp) li t0, 0x73622e20 # _.bs sw t0, 8(sp) li t0, 0x6e6f6974 # tion sw t0, 4(sp) li t0, 0x6365732e # .sec sw t0, 0(sp) addi a0, sp, 0 li a1, 14 call _write_out _advance(4) # var\n. .Lcompile_variable_section_item: _skip_spaces() lbu a0, (s1) call _is_lower beqz a0, .Lcompile_variable_section_end call _compile_variable j .Lcompile_variable_section_item .Lcompile_variable_section_end: end proc _compile_variable() begin call _read_token # Save the identifier on the stack since it should emitted multiple times. sw s1, 28(sp) sw a0, 24(sp) add s1, s1, a0 _skip_spaces() _advance(1) # Skip the colon in front of the type. _skip_spaces() _advance(1) # Skip the opening bracket. call _read_token # Save the array size on the stack since it has to be emitted multiple times. sw s1, 20(sp) sw a0, 16(sp) add s1, s1, a0 _skip_spaces() _advance(1) # Skip the closing bracket. _skip_spaces() call _read_token add s1, s1, a0 # Skip the type. # .type identifier, @object li t0, 0x2065 # e_ sw t0, 12(sp) li t0, 0x7079742e # .typ sw t0, 8(sp) addi a0, sp, 8 li a1, 6 call _write_out lw a0, 28(sp) lw a1, 24(sp) call _write_out li t0, 0x0a74 # t\n sw t0, 12(sp) li t0, 0x63656a62 # bjec sw t0, 8(sp) li t0, 0x6f40202c # , @o sw t0, 4(sp) addi a0, sp, 4 li a1, 10 call _write_out # .size identifier, size li t0, 0x2065 # e_ sw t0, 12(sp) li t0, 0x7a69732e # .siz sw t0, 8(sp) addi a0, sp, 8 li a1, 6 call _write_out lw a0, 28(sp) lw a1, 24(sp) call _write_out li t0, 0x202c # , sw t0, 12(sp) addi a0, sp, 12 li a1, 2 call _write_out lw a0, 20(sp) lw a1, 16(sp) call _write_out li t0, 0x0a # \n sw t0, 12(sp) addi a0, sp, 12 li a1, 1 call _write_out # identifier: .zero size lw a0, 28(sp) lw a1, 24(sp) call _write_out li t0, 0x206f7265 # ero_ sw t0, 12(sp) li t0, 0x7a2e203a # : .z sw t0, 8(sp) addi a0, sp, 8 li a1, 8 call _write_out lw a0, 20(sp) lw a1, 16(sp) call _write_out li t0, 0x0a # \n sw t0, 12(sp) addi a0, sp, 12 li a1, 1 call _write_out end proc _compile_procedure() begin _advance(5) # Skip proc_ call _read_token sw s1, 20(sp) sw a0, 16(sp) add s1, s1, a0 # .type identifier, @function li t0, 0x2065 # e_ sw t0, 12(sp) li t0, 0x7079742e # .typ sw t0, 8(sp) addi a0, sp, 8 li a1, 6 call _write_out lw a0, 20(sp) lw a1, 16(sp) call _write_out li t0, 0x0a6e6f69 # ion\n sw t0, 12(sp) li t0, 0x74636e75 # unct sw t0, 8(sp) li t0, 0x6640202c # , @f sw t0, 4(sp) addi a0, sp, 4 li a1, 12 call _write_out lw a0, 20(sp) lw a1, 16(sp) call _write_out li t0, 0x0a3a # :\n sw t0, 12(sp) addi a0, sp, 12 li a1, 2 call _write_out _skip_spaces() _advance(1) # Skip opening argument paren. _skip_spaces() _advance(1) # Skip closing argument paren. li t0, 0x6e # n sw t0, 12(sp) li t0, 0x69676562 # begi sw t0, 8(sp) # Skip all declarations until we find the "begin" keyword, denoting the # beginning of the procedure body. .Lcompile_procedure_begin: _skip_spaces() call _read_token mv a1, a0 mv a0, s1 addi a2, sp, 8 add s1, s1, a1 call _token_compare bnez a0, .Lcompile_procedure_begin # Generate the procedure prologue with a predefined stack size. li t0, 0x69646461 # addi sw t0, 12(sp) addi a0, sp, 12 li a1, 4 call _write_out li t0, 0x2c707320 # _sp, sw t0, 12(sp) addi a0, sp, 12 li a1, 4 call _write_out addi a0, sp, 12 li a1, 4 call _write_out li t0, 0x0a36392d # -96\n sw t0, 12(sp) addi a0, sp, 12 li a1, 4 call _write_out li t0, 0x0a29 # )\n sw t0, 12(sp) li t0, 0x70732832 # 2(sp sw t0, 8(sp) li t0, 0x39202c61 # a, 9 sw t0, 4(sp) li t0, 0x72207773 # sw r sw t0, 0(sp) addi a0, sp, 0 li a1, 14 call _write_out li t0, 0x0a29 # )\n sw t0, 12(sp) li t0, 0x70732838 # 2(sp sw t0, 8(sp) li t0, 0x38202c30 # 0, 8 sw t0, 4(sp) li t0, 0x73207773 # sw s sw t0, 0(sp) addi a0, sp, 0 li a1, 14 call _write_out li t0, 0x0a363920 # _96\n sw t0, 12(sp) li t0, 0x2c707320 # _sp, sw t0, 8(sp) li t0, 0x2c307320 # _s0, sw t0, 4(sp) li t0, 0x69646461 # addi sw t0, 0(sp) addi a0, sp, 0 li a1, 16 call _write_out # Generate the body of the procedure. .Lcompile_procedure_body: _skip_indentation() call _read_line sw a0, 12(sp) li t0, 0x0a646e65 # end\n sw t0, 8(sp) mv a0, s1 addi a1, sp, 8 li a2, 4 call _memcmp beqz a0, .Lcompile_procedure_end lw a0, 12(sp) call _compile_line j .Lcompile_procedure_body .Lcompile_procedure_end: add s1, s1, 4 # Skip end\n. # Generate the procedure epilogue with a predefined stack size. li t0, 0x0a29 # )\n sw t0, 12(sp) li t0, 0x70732832 # 2(sp sw t0, 8(sp) li t0, 0x39202c61 # a, 9 sw t0, 4(sp) li t0, 0x7220776c # lw r sw t0, 0(sp) addi a0, sp, 0 li a1, 14 call _write_out li t0, 0x0a29 # )\n sw t0, 12(sp) li t0, 0x70732838 # 2(sp sw t0, 8(sp) li t0, 0x38202c30 # 0, 8 sw t0, 4(sp) li t0, 0x7320776c # lw s sw t0, 0(sp) addi a0, sp, 0 li a1, 14 call _write_out li t0, 0x69646461 # addi sw t0, 12(sp) addi a0, sp, 12 li a1, 4 call _write_out li t0, 0x2c707320 # _sp, sw t0, 12(sp) addi a0, sp, 12 li a1, 4 call _write_out addi a0, sp, 12 li a1, 4 call _write_out li t0, 0x0a3639 # 96\n sw t0, 12(sp) addi a0, sp, 12 li a1, 3 call _write_out li t0, 0x0a746572 # ret\n sw t0, 12(sp) addi a0, sp, 12 li a1, 4 call _write_out end # Compares two string, which of one has a length, the other one is null-terminated. # # a0 - The address of the token string. # a1 - The length of the string in a0. # a2 - The address of the null-terminated string. # # If the strings match sets a0 to 0, otherwise sets it to 1. proc _token_compare() begin addi t0, a0, 0 addi t1, a1, 0 addi t2, a2, 0 .Ltoken_compare_loop: lbu t3, (t2) # Will only be 0 if the current character in the null terminated string is \0 and the remaining length of the # another string is 0. or t4, t3, t1 beqz t4, .Ltoken_compare_equal beqz t1, .Ltoken_compare_not_equal beqz t3, .Ltoken_compare_not_equal lbu t4, (t0) bne t3, t4, .Ltoken_compare_not_equal addi t0, t0, 1 addi t1, t1, -1 addi t2, t2, 1 j .Ltoken_compare_loop .Ltoken_compare_not_equal: li a0, 1 j .Ltoken_compare_end .Ltoken_compare_equal: li a0, 0 .Ltoken_compare_end: end # Parameters: # a0 - Line length. # Returns 1 in a0 if the parsed line contained a text section element such a # procedure or the program entry point. Otherwise sets a0 to 0. proc _compile_line() begin sw a0, 20(sp) # a0 - Line length. beqz a0, .Lcompile_line_empty # Skip an empty line. lbu t0, (s1) li t1, '#' beq t0, t1, .Lcompile_line_comment li t0, 0x0a6d6172 # ram\n sw t0, 16(sp) li t0, 0x676f7270 # prog sw t0, 12(sp) mv a0, s1 addi a1, sp, 12 li a2, 8 call _memcmp beqz a0, .Lcompile_line_program li t0, 0x0a74 # t\n sw t0, 16(sp) li t0, 0x736e6f63 # cons sw t0, 12(sp) mv a0, s1 addi a1, sp, 12 li a2, 6 call _memcmp beqz a0, .Lcompile_line_const li t0, 0x0a726176 # var\n sw t0, 16(sp) mv a0, s1 addi a1, sp, 16 li a2, 4 call _memcmp; beqz a0, .Lcompile_line_var li t0, 0x20 # _ sw t0, 16(sp) li t0, 0x636f7270 # proc sw t0, 12(sp) mv a0, s1 addi a1, sp, 12 li a2, 5 call _memcmp beqz a0, .Lcompile_line_procedure li t0, 0x0a6e # n\n sw t0, 16(sp) li t0, 0x69676562 # begi sw t0, 12(sp) mv a0, s1 addi a1, sp, 12 li a2, 6 call _memcmp beqz a0, .Lcompile_line_begin li t0, 0x2e646e65 # end. sw t0, 16(sp) mv a0, s1 addi a1, sp, 16 li a2, 4 call _memcmp beqz a0, .Lcompile_line_exit li t0, 0x61636f6c # loca sw t0, 16(sp) mv a0, s1 addi a1, sp, 16 li a2, 4 call _memcmp beqz a0, .Lcompile_line_identifier lbu t0, (s1) li t1, '_' beq t0, t1, .Lcompile_line_identifier j .Lcompile_line_unchanged # Else. .Lcompile_line_identifier: call _compile_identifier j .Lcompile_line_section .Lcompile_line_exit: call _compile_exit j .Lcompile_line_section .Lcompile_line_begin: call _compile_entry_point li a0, 1 j .Lcompile_line_end .Lcompile_line_const: call _compile_constant_section j .Lcompile_line_section .Lcompile_line_procedure: call _compile_procedure li a0, 1 j .Lcompile_line_end .Lcompile_line_var: call _compile_variable_section j .Lcompile_line_section .Lcompile_line_program: call _compile_program j .Lcompile_line_section .Lcompile_line_comment: lw a0, 20(sp) call _skip_comment j .Lcompile_line_section .Lcompile_line_empty: _advance(1) j .Lcompile_line_section .Lcompile_line_unchanged: lw a0, 20(sp) call _compile_assembly j .Lcompile_line_section .Lcompile_line_section: mv a0, zero .Lcompile_line_end: end proc _compile_text_section() begin # .section .text li t0, 0x0a7478 # xt\n sw t0, 12(sp) li t0, 0x65742e20 # _.te sw t0, 8(sp) li t0, 0x6e6f6974 # tion sw t0, 4(sp) li t0, 0x6365732e # .sec sw t0, 0(sp) addi a0, sp, 0 li a1, 15 call _write_out end proc _compile_entry_point() begin # .type _start, @function li t0, 0x0a3a7472 # rt:\n sw t0, 52(sp) li t0, 0x6174735f # _sta sw t0, 48(sp) li t0, 0x0a6e6f69 # ion\n sw t0, 44(sp) li t0, 0x74636e75 # unct sw t0, 40(sp) li t0, 0x6640202c # , @f sw t0, 36(sp) li t0, 0x74726174 # tart sw t0, 32(sp) li t0, 0x735f2065 # e _s sw t0, 28(sp) li t0, 0x7079742e # .typ sw t0, 24(sp) addi a0, sp, 24 li a1, 32 call _write_out _advance(6) # Skip begin\n. end proc _compile_exit() begin # li a0, 0 # li a7, SYS_EXIT # ecall li t0, 0x0a # \n sw t0, 52(sp) li t0, 0x6c6c6163 # call sw t0, 48(sp) li t0, 0x650a3339 # 93\ne sw t0, 44(sp) li t0, 0x202c3761 # a7,_ sw t0, 40(sp) li t0, 0x20696c0a # \nli_ sw t0, 36(sp) li t0, 0x30202c30 # 0, 0 sw t0, 32(sp) li t0, 0x6120696c # li a sw t0, 28(sp) addi a0, sp, 28 li a1, 25 call _write_out _advance(4) # Skip end. _skip_spaces() # Read the possible new line at the end of the file. end # Finds the end of the line and returns its length in a0. proc _read_line() begin mv t0, s1 # Local position in the source text. .Lread_line_do: lbu t1, (t0) # t1 = Current character. beqz t1, .Lread_line_end # Exit the loop on the NUL character. li t2, '\n' beq t1, t2, .Lread_line_end # Exit the loop on the new line. addi t0, t0, 1 j .Lread_line_do .Lread_line_end: sub a0, t0, s1 # Return the line length. end proc _compile() begin .Lcompile_do: lbu t0, (s1) # t0 = Current character. beqz t0, .Lcompile_end # Exit the loop on the NUL character. _skip_indentation() call _read_line call _compile_line j .Lcompile_do .Lcompile_end: end # Returns the pointer to the current position in the source text in a0. proc _current() begin mv a0, s1 end # a0 is the number of bytes to advance in the source text. proc _advance() begin add s1, s1, a0 end # Entry point. begin # Read the source from the standard input. la a0, source_code la a1, SOURCE_BUFFER_SIZE # Buffer size. lw a1, (a1) call _read_file la s1, source_code # s1 = Source code position. call _compile end.