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parser.out
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parser.out
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Created by PLY version 3.10 (http://www.dabeaz.com/ply)
Grammar
Rule 0 S' -> program
Rule 1 program -> gen_goto_main more_vars more_func main
Rule 2 gen_goto_main -> <empty>
Rule 3 more_vars -> vars
Rule 4 more_vars -> <empty>
Rule 5 vars -> var_type vars_aux SEMICOLON more_vars
Rule 6 var_type -> BOOL
Rule 7 var_type -> INT
Rule 8 var_type -> DOUBLE
Rule 9 vars_aux -> ID to_var_table arr var_assign more_vars_aux
Rule 10 to_var_table -> <empty>
Rule 11 var_assign -> EQUALS var_cte
Rule 12 var_assign -> <empty>
Rule 13 more_vars_aux -> COMMA vars_aux
Rule 14 more_vars_aux -> <empty>
Rule 15 arr -> LSQRTBRACKET const register_space RSQRTBRACKET
Rule 16 arr -> <empty>
Rule 17 register_space -> <empty>
Rule 18 var_cte -> const to_pilaOp
Rule 19 var_cte -> ID to_pilaOp arr_par
Rule 20 var_cte -> func_call to_pilaOp
Rule 21 const -> CTEINT
Rule 22 const -> CTEDOUBLE
Rule 23 const -> CTEBOOL
Rule 24 more_func -> func
Rule 25 more_func -> <empty>
Rule 26 func -> FUNC func_type ID to_proc_dir LPAR arguments RPAR func_block more_func
Rule 27 to_proc_dir -> <empty>
Rule 28 func_type -> VOID
Rule 29 func_type -> BOOL
Rule 30 func_type -> INT
Rule 31 func_type -> DOUBLE
Rule 32 arguments -> var_type ID to_args more_args
Rule 33 arguments -> <empty>
Rule 34 more_args -> COMMA var_type ID to_args more_args
Rule 35 more_args -> <empty>
Rule 36 to_args -> <empty>
Rule 37 func_block -> LBRACKET more_vars actual_quad_no more_statement gen_endproc_quad RBRACKET
Rule 38 actual_quad_no -> <empty>
Rule 39 gen_endproc_quad -> <empty>
Rule 40 more_statement -> statement more_statement
Rule 41 more_statement -> <empty>
Rule 42 statement -> read
Rule 43 statement -> write
Rule 44 statement -> return_stmt
Rule 45 statement -> cycle
Rule 46 statement -> condition
Rule 47 statement -> assignation
Rule 48 statement -> func_call SEMICOLON
Rule 49 read -> READ LPAR ID to_pilaOp arr_par RPAR gen_read_quad SEMICOLON
Rule 50 gen_read_quad -> <empty>
Rule 51 write -> WRITE LPAR exp RPAR gen_write_quad SEMICOLON
Rule 52 gen_write_quad -> <empty>
Rule 53 return_stmt -> RETURN exp gen_return_quad SEMICOLON
Rule 54 gen_return_quad -> <empty>
Rule 55 cycle -> WHILE cycle_start LPAR expression RPAR check_type block cycle_end
Rule 56 cycle_start -> <empty>
Rule 57 cycle_end -> <empty>
Rule 58 condition -> IF LPAR expression RPAR check_type block else_posible fill_end_condition
Rule 59 else_posible -> ELSE gen_goto block
Rule 60 else_posible -> <empty>
Rule 61 gen_goto -> <empty>
Rule 62 fill_end_condition -> <empty>
Rule 63 check_type -> <empty>
Rule 64 assignation -> ID to_pilaOp arr_par EQUALS expression gen_assignation_quad SEMICOLON
Rule 65 gen_assignation_quad -> <empty>
Rule 66 func_call -> ID is_valid_func LPAR gen_era push_false_bottom params pop_false_bottom RPAR gen_go_sub
Rule 67 params -> exp check_args more_params
Rule 68 params -> <empty>
Rule 69 more_params -> COMMA exp check_args more_params
Rule 70 more_params -> <empty>
Rule 71 check_args -> <empty>
Rule 72 is_valid_func -> <empty>
Rule 73 gen_era -> <empty>
Rule 74 gen_go_sub -> <empty>
Rule 75 block -> LBRACKET more_statement RBRACKET
Rule 76 arr_par -> LSQRTBRACKET exp RSQRTBRACKET
Rule 77 arr_par -> <empty>
Rule 78 expression -> conc gen_conc_quad expression_aux
Rule 79 expression_aux -> ao add_to_pilaOptr conc gen_conc_quad expression_aux
Rule 80 expression_aux -> <empty>
Rule 81 gen_conc_quad -> <empty>
Rule 82 conc -> exp gen_comp_quad conc_aux
Rule 83 conc_aux -> comp add_to_pilaOptr exp gen_comp_quad
Rule 84 conc_aux -> <empty>
Rule 85 gen_comp_quad -> <empty>
Rule 86 exp -> term gen_term_quad exp_aux
Rule 87 exp_aux -> pl add_to_pilaOptr term gen_term_quad exp_aux
Rule 88 exp_aux -> <empty>
Rule 89 gen_term_quad -> <empty>
Rule 90 term -> factor gen_factor_quad term_aux
Rule 91 term_aux -> dm add_to_pilaOptr factor gen_factor_quad term_aux
Rule 92 term_aux -> <empty>
Rule 93 gen_factor_quad -> <empty>
Rule 94 factor -> LPAR add_to_pilaOptr expression RPAR pop_false_bottom
Rule 95 factor -> var_cte
Rule 96 ao -> AND
Rule 97 ao -> OR
Rule 98 comp -> GREATER
Rule 99 comp -> LESS
Rule 100 comp -> GREATEROREQUAL
Rule 101 comp -> LESSOREQUAL
Rule 102 comp -> EQUALEQUALS
Rule 103 comp -> DIFFERENT
Rule 104 pl -> PLUS
Rule 105 pl -> MINUS
Rule 106 to_pilaOp -> <empty>
Rule 107 add_to_pilaOptr -> <empty>
Rule 108 push_false_bottom -> <empty>
Rule 109 pop_false_bottom -> <empty>
Rule 110 dm -> MULTIPLICATION
Rule 111 dm -> DIVISION
Rule 112 dm -> MOD
Rule 113 main -> MAIN main_to_proc_dir main_block
Rule 114 main_to_proc_dir -> <empty>
Rule 115 main_block -> LBRACKET more_vars more_statement RBRACKET gen_end_quad
Rule 116 gen_end_quad -> <empty>
Terminals, with rules where they appear
AND : 96
BOOL : 6 29
COMMA : 13 34 69
CTEBOOL : 23
CTEDOUBLE : 22
CTEINT : 21
DIFFERENT : 103
DIVISION : 111
DOUBLE : 8 31
ELSE : 59
EQUALEQUALS : 102
EQUALS : 11 64
FUNC : 26
GREATER : 98
GREATEROREQUAL : 100
ID : 9 19 26 32 34 49 64 66
IF : 58
INT : 7 30
LBRACKET : 37 75 115
LESS : 99
LESSOREQUAL : 101
LPAR : 26 49 51 55 58 66 94
LSQRTBRACKET : 15 76
MAIN : 113
MINUS : 105
MOD : 112
MULTIPLICATION : 110
OR : 97
PLUS : 104
RBRACKET : 37 75 115
READ : 49
RETURN : 53
RPAR : 26 49 51 55 58 66 94
RSQRTBRACKET : 15 76
SEMICOLON : 5 48 49 51 53 64
VOID : 28
WHILE : 55
WRITE : 51
error :
Nonterminals, with rules where they appear
actual_quad_no : 37
add_to_pilaOptr : 79 83 87 91 94
ao : 79
arguments : 26
arr : 9
arr_par : 19 49 64
assignation : 47
block : 55 58 59
check_args : 67 69
check_type : 55 58
comp : 83
conc : 78 79
conc_aux : 82
condition : 46
const : 15 18
cycle : 45
cycle_end : 55
cycle_start : 55
dm : 91
else_posible : 58
exp : 51 53 67 69 76 82 83
exp_aux : 86 87
expression : 55 58 64 94
expression_aux : 78 79
factor : 90 91
fill_end_condition : 58
func : 24
func_block : 26
func_call : 20 48
func_type : 26
gen_assignation_quad : 64
gen_comp_quad : 82 83
gen_conc_quad : 78 79
gen_end_quad : 115
gen_endproc_quad : 37
gen_era : 66
gen_factor_quad : 90 91
gen_go_sub : 66
gen_goto : 59
gen_goto_main : 1
gen_read_quad : 49
gen_return_quad : 53
gen_term_quad : 86 87
gen_write_quad : 51
is_valid_func : 66
main : 1
main_block : 113
main_to_proc_dir : 113
more_args : 32 34
more_func : 1 26
more_params : 67 69
more_statement : 37 40 75 115
more_vars : 1 5 37 115
more_vars_aux : 9
params : 66
pl : 87
pop_false_bottom : 66 94
program : 0
push_false_bottom : 66
read : 42
register_space : 15
return_stmt : 44
statement : 40
term : 86 87
term_aux : 90 91
to_args : 32 34
to_pilaOp : 18 19 20 49 64
to_proc_dir : 26
to_var_table : 9
var_assign : 9
var_cte : 11 95
var_type : 5 32 34
vars : 3
vars_aux : 5 13
write : 43
Parsing method: LALR
state 0
(0) S' -> . program
(1) program -> . gen_goto_main more_vars more_func main
(2) gen_goto_main -> .
BOOL reduce using rule 2 (gen_goto_main -> .)
INT reduce using rule 2 (gen_goto_main -> .)
DOUBLE reduce using rule 2 (gen_goto_main -> .)
FUNC reduce using rule 2 (gen_goto_main -> .)
MAIN reduce using rule 2 (gen_goto_main -> .)
gen_goto_main shift and go to state 1
program shift and go to state 2
state 1
(1) program -> gen_goto_main . more_vars more_func main
(3) more_vars -> . vars
(4) more_vars -> .
(5) vars -> . var_type vars_aux SEMICOLON more_vars
(6) var_type -> . BOOL
(7) var_type -> . INT
(8) var_type -> . DOUBLE
FUNC reduce using rule 4 (more_vars -> .)
MAIN reduce using rule 4 (more_vars -> .)
BOOL shift and go to state 7
INT shift and go to state 5
DOUBLE shift and go to state 6
vars shift and go to state 3
var_type shift and go to state 4
more_vars shift and go to state 8
state 2
(0) S' -> program .
state 3
(3) more_vars -> vars .
READ reduce using rule 3 (more_vars -> vars .)
WRITE reduce using rule 3 (more_vars -> vars .)
RETURN reduce using rule 3 (more_vars -> vars .)
WHILE reduce using rule 3 (more_vars -> vars .)
IF reduce using rule 3 (more_vars -> vars .)
ID reduce using rule 3 (more_vars -> vars .)
RBRACKET reduce using rule 3 (more_vars -> vars .)
FUNC reduce using rule 3 (more_vars -> vars .)
MAIN reduce using rule 3 (more_vars -> vars .)
state 4
(5) vars -> var_type . vars_aux SEMICOLON more_vars
(9) vars_aux -> . ID to_var_table arr var_assign more_vars_aux
ID shift and go to state 10
vars_aux shift and go to state 9
state 5
(7) var_type -> INT .
ID reduce using rule 7 (var_type -> INT .)
state 6
(8) var_type -> DOUBLE .
ID reduce using rule 8 (var_type -> DOUBLE .)
state 7
(6) var_type -> BOOL .
ID reduce using rule 6 (var_type -> BOOL .)
state 8
(1) program -> gen_goto_main more_vars . more_func main
(24) more_func -> . func
(25) more_func -> .
(26) func -> . FUNC func_type ID to_proc_dir LPAR arguments RPAR func_block more_func
MAIN reduce using rule 25 (more_func -> .)
FUNC shift and go to state 13
more_func shift and go to state 12
func shift and go to state 11
state 9
(5) vars -> var_type vars_aux . SEMICOLON more_vars
SEMICOLON shift and go to state 14
state 10
(9) vars_aux -> ID . to_var_table arr var_assign more_vars_aux
(10) to_var_table -> .
LSQRTBRACKET reduce using rule 10 (to_var_table -> .)
EQUALS reduce using rule 10 (to_var_table -> .)
COMMA reduce using rule 10 (to_var_table -> .)
SEMICOLON reduce using rule 10 (to_var_table -> .)
to_var_table shift and go to state 15
state 11
(24) more_func -> func .
MAIN reduce using rule 24 (more_func -> func .)
state 12
(1) program -> gen_goto_main more_vars more_func . main
(113) main -> . MAIN main_to_proc_dir main_block
MAIN shift and go to state 17
main shift and go to state 16
state 13
(26) func -> FUNC . func_type ID to_proc_dir LPAR arguments RPAR func_block more_func
(28) func_type -> . VOID
(29) func_type -> . BOOL
(30) func_type -> . INT
(31) func_type -> . DOUBLE
VOID shift and go to state 20
BOOL shift and go to state 22
INT shift and go to state 21
DOUBLE shift and go to state 19
func_type shift and go to state 18
state 14
(5) vars -> var_type vars_aux SEMICOLON . more_vars
(3) more_vars -> . vars
(4) more_vars -> .
(5) vars -> . var_type vars_aux SEMICOLON more_vars
(6) var_type -> . BOOL
(7) var_type -> . INT
(8) var_type -> . DOUBLE
FUNC reduce using rule 4 (more_vars -> .)
MAIN reduce using rule 4 (more_vars -> .)
READ reduce using rule 4 (more_vars -> .)
WRITE reduce using rule 4 (more_vars -> .)
RETURN reduce using rule 4 (more_vars -> .)
WHILE reduce using rule 4 (more_vars -> .)
IF reduce using rule 4 (more_vars -> .)
ID reduce using rule 4 (more_vars -> .)
RBRACKET reduce using rule 4 (more_vars -> .)
BOOL shift and go to state 7
INT shift and go to state 5
DOUBLE shift and go to state 6
vars shift and go to state 3
more_vars shift and go to state 23
var_type shift and go to state 4
state 15
(9) vars_aux -> ID to_var_table . arr var_assign more_vars_aux
(15) arr -> . LSQRTBRACKET const register_space RSQRTBRACKET
(16) arr -> .
LSQRTBRACKET shift and go to state 25
EQUALS reduce using rule 16 (arr -> .)
COMMA reduce using rule 16 (arr -> .)
SEMICOLON reduce using rule 16 (arr -> .)
arr shift and go to state 24
state 16
(1) program -> gen_goto_main more_vars more_func main .
$end reduce using rule 1 (program -> gen_goto_main more_vars more_func main .)
state 17
(113) main -> MAIN . main_to_proc_dir main_block
(114) main_to_proc_dir -> .
LBRACKET reduce using rule 114 (main_to_proc_dir -> .)
main_to_proc_dir shift and go to state 26
state 18
(26) func -> FUNC func_type . ID to_proc_dir LPAR arguments RPAR func_block more_func
ID shift and go to state 27
state 19
(31) func_type -> DOUBLE .
ID reduce using rule 31 (func_type -> DOUBLE .)
state 20
(28) func_type -> VOID .
ID reduce using rule 28 (func_type -> VOID .)
state 21
(30) func_type -> INT .
ID reduce using rule 30 (func_type -> INT .)
state 22
(29) func_type -> BOOL .
ID reduce using rule 29 (func_type -> BOOL .)
state 23
(5) vars -> var_type vars_aux SEMICOLON more_vars .
FUNC reduce using rule 5 (vars -> var_type vars_aux SEMICOLON more_vars .)
MAIN reduce using rule 5 (vars -> var_type vars_aux SEMICOLON more_vars .)
READ reduce using rule 5 (vars -> var_type vars_aux SEMICOLON more_vars .)
WRITE reduce using rule 5 (vars -> var_type vars_aux SEMICOLON more_vars .)
RETURN reduce using rule 5 (vars -> var_type vars_aux SEMICOLON more_vars .)
WHILE reduce using rule 5 (vars -> var_type vars_aux SEMICOLON more_vars .)
IF reduce using rule 5 (vars -> var_type vars_aux SEMICOLON more_vars .)
ID reduce using rule 5 (vars -> var_type vars_aux SEMICOLON more_vars .)
RBRACKET reduce using rule 5 (vars -> var_type vars_aux SEMICOLON more_vars .)
state 24
(9) vars_aux -> ID to_var_table arr . var_assign more_vars_aux
(11) var_assign -> . EQUALS var_cte
(12) var_assign -> .
EQUALS shift and go to state 28
COMMA reduce using rule 12 (var_assign -> .)
SEMICOLON reduce using rule 12 (var_assign -> .)
var_assign shift and go to state 29
state 25
(15) arr -> LSQRTBRACKET . const register_space RSQRTBRACKET
(21) const -> . CTEINT
(22) const -> . CTEDOUBLE
(23) const -> . CTEBOOL
CTEINT shift and go to state 33
CTEDOUBLE shift and go to state 30
CTEBOOL shift and go to state 32
const shift and go to state 31
state 26
(113) main -> MAIN main_to_proc_dir . main_block
(115) main_block -> . LBRACKET more_vars more_statement RBRACKET gen_end_quad
LBRACKET shift and go to state 35
main_block shift and go to state 34
state 27
(26) func -> FUNC func_type ID . to_proc_dir LPAR arguments RPAR func_block more_func
(27) to_proc_dir -> .
LPAR reduce using rule 27 (to_proc_dir -> .)
to_proc_dir shift and go to state 36
state 28
(11) var_assign -> EQUALS . var_cte
(18) var_cte -> . const to_pilaOp
(19) var_cte -> . ID to_pilaOp arr_par
(20) var_cte -> . func_call to_pilaOp
(21) const -> . CTEINT
(22) const -> . CTEDOUBLE
(23) const -> . CTEBOOL
(66) func_call -> . ID is_valid_func LPAR gen_era push_false_bottom params pop_false_bottom RPAR gen_go_sub
ID shift and go to state 40
CTEINT shift and go to state 33
CTEDOUBLE shift and go to state 30
CTEBOOL shift and go to state 32
func_call shift and go to state 37
const shift and go to state 38
var_cte shift and go to state 39
state 29
(9) vars_aux -> ID to_var_table arr var_assign . more_vars_aux
(13) more_vars_aux -> . COMMA vars_aux
(14) more_vars_aux -> .
COMMA shift and go to state 42
SEMICOLON reduce using rule 14 (more_vars_aux -> .)
more_vars_aux shift and go to state 41
state 30
(22) const -> CTEDOUBLE .
MULTIPLICATION reduce using rule 22 (const -> CTEDOUBLE .)
DIVISION reduce using rule 22 (const -> CTEDOUBLE .)
MOD reduce using rule 22 (const -> CTEDOUBLE .)
PLUS reduce using rule 22 (const -> CTEDOUBLE .)
MINUS reduce using rule 22 (const -> CTEDOUBLE .)
GREATER reduce using rule 22 (const -> CTEDOUBLE .)
LESS reduce using rule 22 (const -> CTEDOUBLE .)
GREATEROREQUAL reduce using rule 22 (const -> CTEDOUBLE .)
LESSOREQUAL reduce using rule 22 (const -> CTEDOUBLE .)
EQUALEQUALS reduce using rule 22 (const -> CTEDOUBLE .)
DIFFERENT reduce using rule 22 (const -> CTEDOUBLE .)
AND reduce using rule 22 (const -> CTEDOUBLE .)
OR reduce using rule 22 (const -> CTEDOUBLE .)
SEMICOLON reduce using rule 22 (const -> CTEDOUBLE .)
COMMA reduce using rule 22 (const -> CTEDOUBLE .)
RPAR reduce using rule 22 (const -> CTEDOUBLE .)
RSQRTBRACKET reduce using rule 22 (const -> CTEDOUBLE .)
state 31
(15) arr -> LSQRTBRACKET const . register_space RSQRTBRACKET
(17) register_space -> .
RSQRTBRACKET reduce using rule 17 (register_space -> .)
register_space shift and go to state 43
state 32
(23) const -> CTEBOOL .
MULTIPLICATION reduce using rule 23 (const -> CTEBOOL .)
DIVISION reduce using rule 23 (const -> CTEBOOL .)
MOD reduce using rule 23 (const -> CTEBOOL .)
PLUS reduce using rule 23 (const -> CTEBOOL .)
MINUS reduce using rule 23 (const -> CTEBOOL .)
GREATER reduce using rule 23 (const -> CTEBOOL .)
LESS reduce using rule 23 (const -> CTEBOOL .)
GREATEROREQUAL reduce using rule 23 (const -> CTEBOOL .)
LESSOREQUAL reduce using rule 23 (const -> CTEBOOL .)
EQUALEQUALS reduce using rule 23 (const -> CTEBOOL .)
DIFFERENT reduce using rule 23 (const -> CTEBOOL .)
AND reduce using rule 23 (const -> CTEBOOL .)
OR reduce using rule 23 (const -> CTEBOOL .)
SEMICOLON reduce using rule 23 (const -> CTEBOOL .)
COMMA reduce using rule 23 (const -> CTEBOOL .)
RPAR reduce using rule 23 (const -> CTEBOOL .)
RSQRTBRACKET reduce using rule 23 (const -> CTEBOOL .)
state 33
(21) const -> CTEINT .
MULTIPLICATION reduce using rule 21 (const -> CTEINT .)
DIVISION reduce using rule 21 (const -> CTEINT .)
MOD reduce using rule 21 (const -> CTEINT .)
PLUS reduce using rule 21 (const -> CTEINT .)
MINUS reduce using rule 21 (const -> CTEINT .)
GREATER reduce using rule 21 (const -> CTEINT .)
LESS reduce using rule 21 (const -> CTEINT .)
GREATEROREQUAL reduce using rule 21 (const -> CTEINT .)
LESSOREQUAL reduce using rule 21 (const -> CTEINT .)
EQUALEQUALS reduce using rule 21 (const -> CTEINT .)
DIFFERENT reduce using rule 21 (const -> CTEINT .)
AND reduce using rule 21 (const -> CTEINT .)
OR reduce using rule 21 (const -> CTEINT .)
SEMICOLON reduce using rule 21 (const -> CTEINT .)
COMMA reduce using rule 21 (const -> CTEINT .)
RPAR reduce using rule 21 (const -> CTEINT .)
RSQRTBRACKET reduce using rule 21 (const -> CTEINT .)
state 34
(113) main -> MAIN main_to_proc_dir main_block .
$end reduce using rule 113 (main -> MAIN main_to_proc_dir main_block .)
state 35
(115) main_block -> LBRACKET . more_vars more_statement RBRACKET gen_end_quad
(3) more_vars -> . vars
(4) more_vars -> .
(5) vars -> . var_type vars_aux SEMICOLON more_vars
(6) var_type -> . BOOL
(7) var_type -> . INT
(8) var_type -> . DOUBLE
READ reduce using rule 4 (more_vars -> .)
WRITE reduce using rule 4 (more_vars -> .)
RETURN reduce using rule 4 (more_vars -> .)
WHILE reduce using rule 4 (more_vars -> .)
IF reduce using rule 4 (more_vars -> .)
ID reduce using rule 4 (more_vars -> .)
RBRACKET reduce using rule 4 (more_vars -> .)
BOOL shift and go to state 7
INT shift and go to state 5
DOUBLE shift and go to state 6
vars shift and go to state 3
var_type shift and go to state 4
more_vars shift and go to state 44
state 36
(26) func -> FUNC func_type ID to_proc_dir . LPAR arguments RPAR func_block more_func
LPAR shift and go to state 45
state 37
(20) var_cte -> func_call . to_pilaOp
(106) to_pilaOp -> .
COMMA reduce using rule 106 (to_pilaOp -> .)
SEMICOLON reduce using rule 106 (to_pilaOp -> .)
MULTIPLICATION reduce using rule 106 (to_pilaOp -> .)
DIVISION reduce using rule 106 (to_pilaOp -> .)
MOD reduce using rule 106 (to_pilaOp -> .)
PLUS reduce using rule 106 (to_pilaOp -> .)
MINUS reduce using rule 106 (to_pilaOp -> .)
RSQRTBRACKET reduce using rule 106 (to_pilaOp -> .)
GREATER reduce using rule 106 (to_pilaOp -> .)
LESS reduce using rule 106 (to_pilaOp -> .)
GREATEROREQUAL reduce using rule 106 (to_pilaOp -> .)
LESSOREQUAL reduce using rule 106 (to_pilaOp -> .)
EQUALEQUALS reduce using rule 106 (to_pilaOp -> .)
DIFFERENT reduce using rule 106 (to_pilaOp -> .)
AND reduce using rule 106 (to_pilaOp -> .)
OR reduce using rule 106 (to_pilaOp -> .)
RPAR reduce using rule 106 (to_pilaOp -> .)
to_pilaOp shift and go to state 46
state 38
(18) var_cte -> const . to_pilaOp
(106) to_pilaOp -> .
COMMA reduce using rule 106 (to_pilaOp -> .)
SEMICOLON reduce using rule 106 (to_pilaOp -> .)
MULTIPLICATION reduce using rule 106 (to_pilaOp -> .)
DIVISION reduce using rule 106 (to_pilaOp -> .)
MOD reduce using rule 106 (to_pilaOp -> .)
PLUS reduce using rule 106 (to_pilaOp -> .)
MINUS reduce using rule 106 (to_pilaOp -> .)
RSQRTBRACKET reduce using rule 106 (to_pilaOp -> .)
GREATER reduce using rule 106 (to_pilaOp -> .)
LESS reduce using rule 106 (to_pilaOp -> .)
GREATEROREQUAL reduce using rule 106 (to_pilaOp -> .)
LESSOREQUAL reduce using rule 106 (to_pilaOp -> .)
EQUALEQUALS reduce using rule 106 (to_pilaOp -> .)
DIFFERENT reduce using rule 106 (to_pilaOp -> .)
AND reduce using rule 106 (to_pilaOp -> .)
OR reduce using rule 106 (to_pilaOp -> .)
RPAR reduce using rule 106 (to_pilaOp -> .)
to_pilaOp shift and go to state 47
state 39
(11) var_assign -> EQUALS var_cte .
COMMA reduce using rule 11 (var_assign -> EQUALS var_cte .)
SEMICOLON reduce using rule 11 (var_assign -> EQUALS var_cte .)
state 40
(19) var_cte -> ID . to_pilaOp arr_par
(66) func_call -> ID . is_valid_func LPAR gen_era push_false_bottom params pop_false_bottom RPAR gen_go_sub
(106) to_pilaOp -> .
(72) is_valid_func -> .
LSQRTBRACKET reduce using rule 106 (to_pilaOp -> .)
COMMA reduce using rule 106 (to_pilaOp -> .)
SEMICOLON reduce using rule 106 (to_pilaOp -> .)
MULTIPLICATION reduce using rule 106 (to_pilaOp -> .)
DIVISION reduce using rule 106 (to_pilaOp -> .)
MOD reduce using rule 106 (to_pilaOp -> .)
PLUS reduce using rule 106 (to_pilaOp -> .)
MINUS reduce using rule 106 (to_pilaOp -> .)
RSQRTBRACKET reduce using rule 106 (to_pilaOp -> .)
GREATER reduce using rule 106 (to_pilaOp -> .)
LESS reduce using rule 106 (to_pilaOp -> .)
GREATEROREQUAL reduce using rule 106 (to_pilaOp -> .)
LESSOREQUAL reduce using rule 106 (to_pilaOp -> .)
EQUALEQUALS reduce using rule 106 (to_pilaOp -> .)
DIFFERENT reduce using rule 106 (to_pilaOp -> .)
AND reduce using rule 106 (to_pilaOp -> .)
OR reduce using rule 106 (to_pilaOp -> .)
RPAR reduce using rule 106 (to_pilaOp -> .)
LPAR reduce using rule 72 (is_valid_func -> .)
to_pilaOp shift and go to state 48
is_valid_func shift and go to state 49
state 41
(9) vars_aux -> ID to_var_table arr var_assign more_vars_aux .
SEMICOLON reduce using rule 9 (vars_aux -> ID to_var_table arr var_assign more_vars_aux .)
state 42
(13) more_vars_aux -> COMMA . vars_aux
(9) vars_aux -> . ID to_var_table arr var_assign more_vars_aux
ID shift and go to state 10
vars_aux shift and go to state 50
state 43
(15) arr -> LSQRTBRACKET const register_space . RSQRTBRACKET
RSQRTBRACKET shift and go to state 51
state 44
(115) main_block -> LBRACKET more_vars . more_statement RBRACKET gen_end_quad
(40) more_statement -> . statement more_statement
(41) more_statement -> .
(42) statement -> . read
(43) statement -> . write
(44) statement -> . return_stmt
(45) statement -> . cycle
(46) statement -> . condition
(47) statement -> . assignation
(48) statement -> . func_call SEMICOLON
(49) read -> . READ LPAR ID to_pilaOp arr_par RPAR gen_read_quad SEMICOLON
(51) write -> . WRITE LPAR exp RPAR gen_write_quad SEMICOLON
(53) return_stmt -> . RETURN exp gen_return_quad SEMICOLON
(55) cycle -> . WHILE cycle_start LPAR expression RPAR check_type block cycle_end
(58) condition -> . IF LPAR expression RPAR check_type block else_posible fill_end_condition
(64) assignation -> . ID to_pilaOp arr_par EQUALS expression gen_assignation_quad SEMICOLON
(66) func_call -> . ID is_valid_func LPAR gen_era push_false_bottom params pop_false_bottom RPAR gen_go_sub
RBRACKET reduce using rule 41 (more_statement -> .)
READ shift and go to state 52
WRITE shift and go to state 59
RETURN shift and go to state 54
WHILE shift and go to state 65
IF shift and go to state 57
ID shift and go to state 60
return_stmt shift and go to state 53
write shift and go to state 55
statement shift and go to state 56
read shift and go to state 58
condition shift and go to state 61
cycle shift and go to state 62
func_call shift and go to state 63
assignation shift and go to state 64
more_statement shift and go to state 66
state 45
(26) func -> FUNC func_type ID to_proc_dir LPAR . arguments RPAR func_block more_func
(32) arguments -> . var_type ID to_args more_args
(33) arguments -> .
(6) var_type -> . BOOL
(7) var_type -> . INT
(8) var_type -> . DOUBLE
RPAR reduce using rule 33 (arguments -> .)
BOOL shift and go to state 7
INT shift and go to state 5
DOUBLE shift and go to state 6
var_type shift and go to state 67
arguments shift and go to state 68
state 46
(20) var_cte -> func_call to_pilaOp .
MULTIPLICATION reduce using rule 20 (var_cte -> func_call to_pilaOp .)
DIVISION reduce using rule 20 (var_cte -> func_call to_pilaOp .)
MOD reduce using rule 20 (var_cte -> func_call to_pilaOp .)
PLUS reduce using rule 20 (var_cte -> func_call to_pilaOp .)
MINUS reduce using rule 20 (var_cte -> func_call to_pilaOp .)
AND reduce using rule 20 (var_cte -> func_call to_pilaOp .)
OR reduce using rule 20 (var_cte -> func_call to_pilaOp .)
RPAR reduce using rule 20 (var_cte -> func_call to_pilaOp .)
SEMICOLON reduce using rule 20 (var_cte -> func_call to_pilaOp .)
GREATER reduce using rule 20 (var_cte -> func_call to_pilaOp .)
LESS reduce using rule 20 (var_cte -> func_call to_pilaOp .)
GREATEROREQUAL reduce using rule 20 (var_cte -> func_call to_pilaOp .)
LESSOREQUAL reduce using rule 20 (var_cte -> func_call to_pilaOp .)
EQUALEQUALS reduce using rule 20 (var_cte -> func_call to_pilaOp .)
DIFFERENT reduce using rule 20 (var_cte -> func_call to_pilaOp .)
COMMA reduce using rule 20 (var_cte -> func_call to_pilaOp .)
RSQRTBRACKET reduce using rule 20 (var_cte -> func_call to_pilaOp .)
state 47
(18) var_cte -> const to_pilaOp .
MULTIPLICATION reduce using rule 18 (var_cte -> const to_pilaOp .)
DIVISION reduce using rule 18 (var_cte -> const to_pilaOp .)
MOD reduce using rule 18 (var_cte -> const to_pilaOp .)
PLUS reduce using rule 18 (var_cte -> const to_pilaOp .)
MINUS reduce using rule 18 (var_cte -> const to_pilaOp .)
AND reduce using rule 18 (var_cte -> const to_pilaOp .)
OR reduce using rule 18 (var_cte -> const to_pilaOp .)
RPAR reduce using rule 18 (var_cte -> const to_pilaOp .)
SEMICOLON reduce using rule 18 (var_cte -> const to_pilaOp .)
GREATER reduce using rule 18 (var_cte -> const to_pilaOp .)
LESS reduce using rule 18 (var_cte -> const to_pilaOp .)
GREATEROREQUAL reduce using rule 18 (var_cte -> const to_pilaOp .)
LESSOREQUAL reduce using rule 18 (var_cte -> const to_pilaOp .)
EQUALEQUALS reduce using rule 18 (var_cte -> const to_pilaOp .)
DIFFERENT reduce using rule 18 (var_cte -> const to_pilaOp .)
COMMA reduce using rule 18 (var_cte -> const to_pilaOp .)
RSQRTBRACKET reduce using rule 18 (var_cte -> const to_pilaOp .)
state 48
(19) var_cte -> ID to_pilaOp . arr_par
(76) arr_par -> . LSQRTBRACKET exp RSQRTBRACKET
(77) arr_par -> .
LSQRTBRACKET shift and go to state 69
COMMA reduce using rule 77 (arr_par -> .)
SEMICOLON reduce using rule 77 (arr_par -> .)
MULTIPLICATION reduce using rule 77 (arr_par -> .)
DIVISION reduce using rule 77 (arr_par -> .)
MOD reduce using rule 77 (arr_par -> .)
PLUS reduce using rule 77 (arr_par -> .)
MINUS reduce using rule 77 (arr_par -> .)
RSQRTBRACKET reduce using rule 77 (arr_par -> .)
GREATER reduce using rule 77 (arr_par -> .)
LESS reduce using rule 77 (arr_par -> .)
GREATEROREQUAL reduce using rule 77 (arr_par -> .)
LESSOREQUAL reduce using rule 77 (arr_par -> .)
EQUALEQUALS reduce using rule 77 (arr_par -> .)
DIFFERENT reduce using rule 77 (arr_par -> .)
AND reduce using rule 77 (arr_par -> .)
OR reduce using rule 77 (arr_par -> .)
RPAR reduce using rule 77 (arr_par -> .)
arr_par shift and go to state 70
state 49
(66) func_call -> ID is_valid_func . LPAR gen_era push_false_bottom params pop_false_bottom RPAR gen_go_sub
LPAR shift and go to state 71
state 50
(13) more_vars_aux -> COMMA vars_aux .
SEMICOLON reduce using rule 13 (more_vars_aux -> COMMA vars_aux .)
state 51
(15) arr -> LSQRTBRACKET const register_space RSQRTBRACKET .
EQUALS reduce using rule 15 (arr -> LSQRTBRACKET const register_space RSQRTBRACKET .)
COMMA reduce using rule 15 (arr -> LSQRTBRACKET const register_space RSQRTBRACKET .)
SEMICOLON reduce using rule 15 (arr -> LSQRTBRACKET const register_space RSQRTBRACKET .)
state 52
(49) read -> READ . LPAR ID to_pilaOp arr_par RPAR gen_read_quad SEMICOLON
LPAR shift and go to state 72
state 53
(44) statement -> return_stmt .
READ reduce using rule 44 (statement -> return_stmt .)
WRITE reduce using rule 44 (statement -> return_stmt .)
RETURN reduce using rule 44 (statement -> return_stmt .)
WHILE reduce using rule 44 (statement -> return_stmt .)
IF reduce using rule 44 (statement -> return_stmt .)
ID reduce using rule 44 (statement -> return_stmt .)
RBRACKET reduce using rule 44 (statement -> return_stmt .)
state 54
(53) return_stmt -> RETURN . exp gen_return_quad SEMICOLON
(86) exp -> . term gen_term_quad exp_aux
(90) term -> . factor gen_factor_quad term_aux
(94) factor -> . LPAR add_to_pilaOptr expression RPAR pop_false_bottom
(95) factor -> . var_cte
(18) var_cte -> . const to_pilaOp
(19) var_cte -> . ID to_pilaOp arr_par
(20) var_cte -> . func_call to_pilaOp
(21) const -> . CTEINT
(22) const -> . CTEDOUBLE
(23) const -> . CTEBOOL
(66) func_call -> . ID is_valid_func LPAR gen_era push_false_bottom params pop_false_bottom RPAR gen_go_sub
LPAR shift and go to state 73
ID shift and go to state 40
CTEINT shift and go to state 33
CTEDOUBLE shift and go to state 30
CTEBOOL shift and go to state 32
func_call shift and go to state 37
term shift and go to state 76
const shift and go to state 38
exp shift and go to state 77
factor shift and go to state 74
var_cte shift and go to state 75