z3-z3-4.13.0.src.api.api_seq.cpp Maven / Gradle / Ivy
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/*++
Copyright (c) 2016 Microsoft Corporation
Module Name:
api_seq.cpp
Abstract:
API for sequences and regular expressions.
Author:
Nikolaj Bjorner (nbjorner) 2016-01-02.
Revision History:
--*/
#include "api/z3.h"
#include "api/api_log_macros.h"
#include "api/api_context.h"
#include "api/api_util.h"
#include "ast/ast_pp.h"
extern "C" {
Z3_sort Z3_API Z3_mk_seq_sort(Z3_context c, Z3_sort domain) {
Z3_TRY;
LOG_Z3_mk_seq_sort(c, domain);
RESET_ERROR_CODE();
sort * ty = mk_c(c)->sutil().str.mk_seq(to_sort(domain));
mk_c(c)->save_ast_trail(ty);
RETURN_Z3(of_sort(ty));
Z3_CATCH_RETURN(nullptr);
}
Z3_sort Z3_API Z3_mk_re_sort(Z3_context c, Z3_sort domain) {
Z3_TRY;
LOG_Z3_mk_re_sort(c, domain);
RESET_ERROR_CODE();
sort * ty = mk_c(c)->sutil().re.mk_re(to_sort(domain));
mk_c(c)->save_ast_trail(ty);
RETURN_Z3(of_sort(ty));
Z3_CATCH_RETURN(nullptr);
}
Z3_ast Z3_API Z3_mk_string(Z3_context c, Z3_string str) {
Z3_TRY;
LOG_Z3_mk_string(c, str);
RESET_ERROR_CODE();
zstring s(str);
app* a = mk_c(c)->sutil().str.mk_string(s);
mk_c(c)->save_ast_trail(a);
RETURN_Z3(of_ast(a));
Z3_CATCH_RETURN(nullptr);
}
Z3_ast Z3_API Z3_mk_lstring(Z3_context c, unsigned sz, Z3_string str) {
Z3_TRY;
LOG_Z3_mk_lstring(c, sz, str);
RESET_ERROR_CODE();
unsigned_vector chs;
for (unsigned i = 0; i < sz; ++i) chs.push_back((unsigned char)str[i]);
zstring s(sz, chs.data());
app* a = mk_c(c)->sutil().str.mk_string(s);
mk_c(c)->save_ast_trail(a);
RETURN_Z3(of_ast(a));
Z3_CATCH_RETURN(nullptr);
}
Z3_ast Z3_API Z3_mk_u32string(Z3_context c, unsigned sz, unsigned const chars[]) {
Z3_TRY;
LOG_Z3_mk_u32string(c, sz, chars);
RESET_ERROR_CODE();
zstring s(sz, chars);
app* a = mk_c(c)->sutil().str.mk_string(s);
mk_c(c)->save_ast_trail(a);
RETURN_Z3(of_ast(a));
Z3_CATCH_RETURN(nullptr);
}
Z3_ast Z3_API Z3_mk_char(Z3_context c, unsigned ch) {
Z3_TRY;
LOG_Z3_mk_char(c, ch);
RESET_ERROR_CODE();
app* a = mk_c(c)->sutil().str.mk_char(ch);
mk_c(c)->save_ast_trail(a);
RETURN_Z3(of_ast(a));
Z3_CATCH_RETURN(nullptr);
}
Z3_sort Z3_API Z3_mk_string_sort(Z3_context c) {
Z3_TRY;
LOG_Z3_mk_string_sort(c);
RESET_ERROR_CODE();
sort* ty = mk_c(c)->sutil().str.mk_string_sort();
mk_c(c)->save_ast_trail(ty);
RETURN_Z3(of_sort(ty));
Z3_CATCH_RETURN(nullptr);
}
Z3_sort Z3_API Z3_mk_char_sort(Z3_context c) {
Z3_TRY;
LOG_Z3_mk_char_sort(c);
RESET_ERROR_CODE();
sort* ty = mk_c(c)->sutil().mk_char_sort();
mk_c(c)->save_ast_trail(ty);
RETURN_Z3(of_sort(ty));
Z3_CATCH_RETURN(nullptr);
}
bool Z3_API Z3_is_seq_sort(Z3_context c, Z3_sort s) {
Z3_TRY;
LOG_Z3_is_seq_sort(c, s);
RESET_ERROR_CODE();
return mk_c(c)->sutil().is_seq(to_sort(s));
Z3_CATCH_RETURN(false);
}
bool Z3_API Z3_is_re_sort(Z3_context c, Z3_sort s) {
Z3_TRY;
LOG_Z3_is_re_sort(c, s);
RESET_ERROR_CODE();
return mk_c(c)->sutil().is_re(to_sort(s));
Z3_CATCH_RETURN(false);
}
Z3_sort Z3_API Z3_get_seq_sort_basis(Z3_context c, Z3_sort s) {
Z3_TRY;
LOG_Z3_get_seq_sort_basis(c, s);
RESET_ERROR_CODE();
sort* r = nullptr;
if (!mk_c(c)->sutil().is_seq(to_sort(s), r)) {
SET_ERROR_CODE(Z3_INVALID_ARG, "expected sequence sort");
RETURN_Z3(nullptr);
}
RETURN_Z3(of_sort(r));
Z3_CATCH_RETURN(nullptr);
}
Z3_sort Z3_API Z3_get_re_sort_basis(Z3_context c, Z3_sort s) {
Z3_TRY;
LOG_Z3_get_re_sort_basis(c, s);
RESET_ERROR_CODE();
sort* r = nullptr;
if (!mk_c(c)->sutil().is_re(to_sort(s), r)) {
SET_ERROR_CODE(Z3_INVALID_ARG, "expected regex sort");
RETURN_Z3(nullptr);
}
RETURN_Z3(of_sort(r));
Z3_CATCH_RETURN(nullptr);
}
bool Z3_API Z3_is_char_sort(Z3_context c, Z3_sort s) {
Z3_TRY;
LOG_Z3_is_char_sort(c, s);
RESET_ERROR_CODE();
return mk_c(c)->sutil().is_char(to_sort(s));
Z3_CATCH_RETURN(false);
}
bool Z3_API Z3_is_string_sort(Z3_context c, Z3_sort s) {
Z3_TRY;
LOG_Z3_is_string_sort(c, s);
RESET_ERROR_CODE();
return mk_c(c)->sutil().is_string(to_sort(s));
Z3_CATCH_RETURN(false);
}
bool Z3_API Z3_is_string(Z3_context c, Z3_ast s) {
Z3_TRY;
LOG_Z3_is_string(c, s);
RESET_ERROR_CODE();
return mk_c(c)->sutil().str.is_string(to_expr(s));
Z3_CATCH_RETURN(false);
}
Z3_string Z3_API Z3_get_string(Z3_context c, Z3_ast s) {
Z3_TRY;
LOG_Z3_get_string(c, s);
RESET_ERROR_CODE();
zstring str;
if (!mk_c(c)->sutil().str.is_string(to_expr(s), str)) {
SET_ERROR_CODE(Z3_INVALID_ARG, "expression is not a string literal");
return "";
}
return mk_c(c)->mk_external_string(str.encode());
Z3_CATCH_RETURN("");
}
Z3_char_ptr Z3_API Z3_get_lstring(Z3_context c, Z3_ast s, unsigned* length) {
Z3_TRY;
LOG_Z3_get_lstring(c, s, length);
RESET_ERROR_CODE();
zstring str;
if (!length) {
SET_ERROR_CODE(Z3_INVALID_ARG, "length argument is null");
return "";
}
if (!mk_c(c)->sutil().str.is_string(to_expr(s), str)) {
SET_ERROR_CODE(Z3_INVALID_ARG, "expression is not a string literal");
return "";
}
auto& buffer = mk_c(c)->m_char_buffer;
buffer.reset();
svector buff;
for (unsigned i = 0; i < str.length(); ++i) {
unsigned ch = str[i];
if (ch == 0 || ch >= 256 || (ch == '\\' && i + 1 < str.length() && str[i+1] == 'u')) {
buff.reset();
buffer.push_back('\\');
buffer.push_back('u');
buffer.push_back('{');
if (ch == 0)
buff.push_back('0');
while (ch > 0) {
unsigned d = ch & 0xF;
if (d < 10)
buff.push_back('0' + d);
else
buff.push_back('a' + (d - 10));
ch /= 16;
}
for (unsigned j = buff.size(); j-- > 0; ) {
buffer.push_back(buff[j]);
}
buffer.push_back('}');
}
else {
buffer.push_back((char)ch);
}
}
*length = buffer.size();
return buffer.data();
Z3_CATCH_RETURN("");
}
unsigned Z3_API Z3_get_string_length(Z3_context c, Z3_ast s) {
Z3_TRY;
LOG_Z3_get_string_length(c, s);
RESET_ERROR_CODE();
zstring str;
if (!mk_c(c)->sutil().str.is_string(to_expr(s), str)) {
SET_ERROR_CODE(Z3_INVALID_ARG, "expression is not a string literal");
}
return str.length();
Z3_CATCH_RETURN(0);
}
void Z3_API Z3_get_string_contents(Z3_context c, Z3_ast s, unsigned length, unsigned contents[]) {
Z3_TRY;
LOG_Z3_get_string_contents(c, s, length, contents);
RESET_ERROR_CODE();
zstring str;
if (!mk_c(c)->sutil().str.is_string(to_expr(s), str)) {
SET_ERROR_CODE(Z3_INVALID_ARG, "expression is not a string literal");
return;
}
if (str.length() != length) {
SET_ERROR_CODE(Z3_INVALID_ARG, "string size disagrees with supplied buffer length");
return;
}
for (unsigned i = 0; i < length; ++i)
contents[i] = str[i];
Z3_CATCH;
}
#define MK_SORTED(NAME, FN ) \
Z3_ast Z3_API NAME(Z3_context c, Z3_sort s) { \
Z3_TRY; \
LOG_ ## NAME(c, s); \
RESET_ERROR_CODE(); \
app* a = FN(to_sort(s)); \
mk_c(c)->save_ast_trail(a); \
RETURN_Z3(of_ast(a)); \
Z3_CATCH_RETURN(0); \
}
MK_SORTED(Z3_mk_seq_empty, mk_c(c)->sutil().str.mk_empty);
MK_UNARY(Z3_mk_seq_unit, mk_c(c)->get_seq_fid(), OP_SEQ_UNIT, SKIP);
MK_NARY(Z3_mk_seq_concat, mk_c(c)->get_seq_fid(), OP_SEQ_CONCAT, SKIP);
MK_BINARY(Z3_mk_seq_prefix, mk_c(c)->get_seq_fid(), OP_SEQ_PREFIX, SKIP);
MK_BINARY(Z3_mk_seq_suffix, mk_c(c)->get_seq_fid(), OP_SEQ_SUFFIX, SKIP);
MK_BINARY(Z3_mk_seq_contains, mk_c(c)->get_seq_fid(), OP_SEQ_CONTAINS, SKIP);
MK_BINARY(Z3_mk_str_lt, mk_c(c)->get_seq_fid(), OP_STRING_LT, SKIP);
MK_BINARY(Z3_mk_str_le, mk_c(c)->get_seq_fid(), OP_STRING_LE, SKIP);
MK_UNARY(Z3_mk_string_to_code, mk_c(c)->get_seq_fid(), OP_STRING_TO_CODE, SKIP);
MK_UNARY(Z3_mk_string_from_code, mk_c(c)->get_seq_fid(), OP_STRING_FROM_CODE, SKIP);
MK_TERNARY(Z3_mk_seq_extract, mk_c(c)->get_seq_fid(), OP_SEQ_EXTRACT, SKIP);
MK_TERNARY(Z3_mk_seq_replace, mk_c(c)->get_seq_fid(), OP_SEQ_REPLACE, SKIP);
MK_BINARY(Z3_mk_seq_at, mk_c(c)->get_seq_fid(), OP_SEQ_AT, SKIP);
MK_BINARY(Z3_mk_seq_nth, mk_c(c)->get_seq_fid(), OP_SEQ_NTH, SKIP);
MK_UNARY(Z3_mk_seq_length, mk_c(c)->get_seq_fid(), OP_SEQ_LENGTH, SKIP);
MK_TERNARY(Z3_mk_seq_index, mk_c(c)->get_seq_fid(), OP_SEQ_INDEX, SKIP);
MK_BINARY(Z3_mk_seq_last_index, mk_c(c)->get_seq_fid(), OP_SEQ_LAST_INDEX, SKIP);
MK_UNARY(Z3_mk_seq_to_re, mk_c(c)->get_seq_fid(), OP_SEQ_TO_RE, SKIP);
MK_BINARY(Z3_mk_seq_in_re, mk_c(c)->get_seq_fid(), OP_SEQ_IN_RE, SKIP);
MK_UNARY(Z3_mk_int_to_str, mk_c(c)->get_seq_fid(), OP_STRING_ITOS, SKIP);
MK_UNARY(Z3_mk_str_to_int, mk_c(c)->get_seq_fid(), OP_STRING_STOI, SKIP);
MK_UNARY(Z3_mk_ubv_to_str, mk_c(c)->get_seq_fid(), OP_STRING_UBVTOS, SKIP);
MK_UNARY(Z3_mk_sbv_to_str, mk_c(c)->get_seq_fid(), OP_STRING_SBVTOS, SKIP);
Z3_ast Z3_API Z3_mk_re_loop(Z3_context c, Z3_ast r, unsigned lo, unsigned hi) {
Z3_TRY;
LOG_Z3_mk_re_loop(c, r, lo, hi);
RESET_ERROR_CODE();
app* a = hi == 0 ? mk_c(c)->sutil().re.mk_loop(to_expr(r), lo) : mk_c(c)->sutil().re.mk_loop(to_expr(r), lo, hi);
mk_c(c)->save_ast_trail(a);
RETURN_Z3(of_ast(a));
Z3_CATCH_RETURN(nullptr);
}
Z3_ast Z3_API Z3_mk_re_power(Z3_context c, Z3_ast r, unsigned n) {
Z3_TRY;
LOG_Z3_mk_re_power(c, r, n);
RESET_ERROR_CODE();
app* a = mk_c(c)->sutil().re.mk_power(to_expr(r), n);
mk_c(c)->save_ast_trail(a);
RETURN_Z3(of_ast(a));
Z3_CATCH_RETURN(nullptr);
}
MK_UNARY(Z3_mk_re_plus, mk_c(c)->get_seq_fid(), OP_RE_PLUS, SKIP);
MK_UNARY(Z3_mk_re_star, mk_c(c)->get_seq_fid(), OP_RE_STAR, SKIP);
MK_UNARY(Z3_mk_re_option, mk_c(c)->get_seq_fid(), OP_RE_OPTION, SKIP);
MK_UNARY(Z3_mk_re_complement, mk_c(c)->get_seq_fid(), OP_RE_COMPLEMENT, SKIP);
MK_BINARY(Z3_mk_re_diff, mk_c(c)->get_seq_fid(), OP_RE_DIFF, SKIP);
MK_NARY(Z3_mk_re_union, mk_c(c)->get_seq_fid(), OP_RE_UNION, SKIP);
MK_NARY(Z3_mk_re_intersect, mk_c(c)->get_seq_fid(), OP_RE_INTERSECT, SKIP);
MK_NARY(Z3_mk_re_concat, mk_c(c)->get_seq_fid(), OP_RE_CONCAT, SKIP);
MK_BINARY(Z3_mk_re_range, mk_c(c)->get_seq_fid(), OP_RE_RANGE, SKIP);
MK_SORTED(Z3_mk_re_allchar, mk_c(c)->sutil().re.mk_full_char);
MK_SORTED(Z3_mk_re_empty, mk_c(c)->sutil().re.mk_empty);
MK_SORTED(Z3_mk_re_full, mk_c(c)->sutil().re.mk_full_seq);
MK_BINARY(Z3_mk_char_le, mk_c(c)->get_char_fid(), OP_CHAR_LE, SKIP);
MK_UNARY(Z3_mk_char_to_int, mk_c(c)->get_char_fid(), OP_CHAR_TO_INT, SKIP);
MK_UNARY(Z3_mk_char_to_bv, mk_c(c)->get_char_fid(), OP_CHAR_TO_BV, SKIP);
MK_UNARY(Z3_mk_char_from_bv, mk_c(c)->get_char_fid(), OP_CHAR_FROM_BV, SKIP);
MK_UNARY(Z3_mk_char_is_digit, mk_c(c)->get_char_fid(), OP_CHAR_IS_DIGIT, SKIP);
};