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https://github.com/ProvableHQ/leo.git
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add dynamic check errors for circuits 1
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commit
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@ -14,18 +14,9 @@
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// You should have received a copy of the GNU General Public License
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// along with the Leo library. If not, see <https://www.gnu.org/licenses/>.
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use crate::{assert_satisfied, expect_compiler_error, parse_program, EdwardsTestCompiler};
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use crate::{assert_satisfied, expect_compiler_error, expect_dynamic_check_error, parse_program, EdwardsTestCompiler};
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use leo_compiler::errors::{CompilerError, ExpressionError, FunctionError, StatementError};
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fn expect_fail(program: EdwardsTestCompiler) {
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match expect_compiler_error(program) {
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CompilerError::FunctionError(FunctionError::StatementError(StatementError::ExpressionError(
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ExpressionError::Error(_string),
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))) => {}
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error => panic!("Expected invalid circuit member error, got {}", error),
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}
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}
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// Expressions
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#[test]
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@ -41,15 +32,15 @@ fn test_inline_fail() {
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let bytes = include_bytes!("inline_fail.leo");
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let program = parse_program(bytes).unwrap();
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expect_fail(program);
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expect_compiler_error(program);
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}
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#[test]
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fn test_inline_undefined() {
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let bytes = include_bytes!("inline_undefined.leo");
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let program = parse_program(bytes).unwrap();
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let error = parse_program(bytes).err().unwrap();
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expect_fail(program);
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expect_dynamic_check_error(error);
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}
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// Members
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@ -65,9 +56,9 @@ fn test_member_variable() {
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#[test]
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fn test_member_variable_fail() {
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let bytes = include_bytes!("member_variable_fail.leo");
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let program = parse_program(bytes).unwrap();
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let error = parse_program(bytes).err().unwrap();
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expect_fail(program);
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expect_dynamic_check_error(error);
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}
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#[test]
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@ -89,17 +80,17 @@ fn test_member_function() {
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#[test]
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fn test_member_function_fail() {
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let bytes = include_bytes!("member_function_fail.leo");
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let program = parse_program(bytes).unwrap();
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let error = parse_program(bytes).err().unwrap();
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expect_fail(program);
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expect_dynamic_check_error(error);
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}
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#[test]
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fn test_member_function_invalid() {
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let bytes = include_bytes!("member_function_invalid.leo");
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let program = parse_program(bytes).unwrap();
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let error = parse_program(bytes).err().unwrap();
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expect_fail(program);
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expect_dynamic_check_error(error);
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}
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#[test]
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@ -129,17 +120,17 @@ fn test_member_static_function_nested() {
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#[test]
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fn test_member_static_function_invalid() {
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let bytes = include_bytes!("member_static_function_invalid.leo");
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let program = parse_program(bytes).unwrap();
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let error = parse_program(bytes).err().unwrap();
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expect_fail(program)
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expect_dynamic_check_error(error)
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}
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#[test]
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fn test_member_static_function_undefined() {
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let bytes = include_bytes!("member_static_function_undefined.leo");
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let program = parse_program(bytes).unwrap();
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let error = parse_program(bytes).err().unwrap();
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expect_fail(program)
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expect_dynamic_check_error(error)
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}
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// Mutability
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@ -213,9 +204,9 @@ fn test_mutate_variable_fail() {
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#[test]
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fn test_self_fail() {
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let bytes = include_bytes!("self_fail.leo");
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let program = parse_program(bytes).unwrap();
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let error = parse_program(bytes).err().unwrap();
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expect_compiler_error(program);
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expect_dynamic_check_error(error);
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}
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#[test]
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@ -696,6 +696,15 @@ impl Frame {
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/// Returns the type of the identifier in the symbol table.
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///
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fn parse_identifier(&self, identifier: &Identifier) -> Result<Type, FrameError> {
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// Check Self type.
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if identifier.is_self_type() {
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// Check for frame circuit self type.
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let circuit_type = self.self_type_or_error(&identifier.span)?;
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// Return new type with circuit identifier.
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return Ok(Type::Circuit(circuit_type.identifier));
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}
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// Check variable symbol table.
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if let Some(type_) = self.get_variable(&identifier.name) {
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return Ok(type_.to_owned());
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@ -730,7 +739,6 @@ impl Frame {
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right: &Expression,
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span: &Span,
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) -> Result<Type, FrameError> {
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println!("left {}, right {}", left, right);
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// Get the left expression type.
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let left_type = self.parse_expression(left)?;
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@ -998,6 +1006,16 @@ impl Frame {
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Ok(*element_type)
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}
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///
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/// Returns the Self type of the frame or an error if it does not exist.
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///
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fn self_type_or_error(&self, span: &Span) -> Result<CircuitType, FrameError> {
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self.self_type
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.as_ref()
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.map(|circuit_type| circuit_type.clone())
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.ok_or_else(|| FrameError::circuit_self(span))
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}
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///
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/// Returns the type of inline circuit expression.
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///
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@ -1009,14 +1027,15 @@ impl Frame {
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) -> Result<Type, FrameError> {
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// Check if identifier is Self circuit type.
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let circuit_type = if identifier.is_self() {
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self.self_type.clone()
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// Get the Self type of the frame.
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self.self_type_or_error(span)?
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} else {
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// Get circuit type.
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self.user_defined_types
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.get_circuit(&identifier.name)
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.map(|circuit_type| circuit_type.clone())
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}
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.unwrap();
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.ok_or_else(|| FrameError::undefined_circuit(identifier))?
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};
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// Check the length of the circuit members.
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if circuit_type.variables.len() != members.len() {
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@ -1064,7 +1083,7 @@ impl Frame {
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let circuit_type = self.parse_circuit_name(type_, span)?;
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// Look for member with matching name.
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Ok(circuit_type.member_type(&identifier).unwrap())
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Ok(circuit_type.member_type(&identifier)?)
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}
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///
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@ -1092,7 +1111,7 @@ impl Frame {
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// Lookup circuit identifier.
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self.user_defined_types.get_circuit(&identifier.name).unwrap()
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}
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_ => unimplemented!("expected circuit type"),
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type_ => unimplemented!("expected circuit type {:?}", type_),
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})
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}
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@ -1143,7 +1162,9 @@ impl Frame {
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let circuit_type = self.parse_circuit_name(type_, span)?;
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// Find circuit function by identifier.
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Ok(circuit_type.member_function_type(identifier).unwrap())
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circuit_type
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.member_function_type(identifier)
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.ok_or_else(|| FrameError::undefined_circuit_function(identifier))
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}
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///
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@ -1160,7 +1181,7 @@ impl Frame {
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// Check that the function is non-static.
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if circuit_function_type.attributes.contains(&Attribute::Static) {
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unimplemented!("Called static function using dot syntax")
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return Err(FrameError::invalid_static_access(identifier));
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}
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// Return the function type.
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@ -1181,7 +1202,7 @@ impl Frame {
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// Check that the function is static.
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if !circuit_function_type.attributes.contains(&Attribute::Static) {
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unimplemented!("Called non-static function using double colon syntax")
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return Err(FrameError::invalid_member_access(identifier));
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}
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Ok(circuit_function_type.function.to_owned())
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@ -1199,7 +1220,6 @@ impl Frame {
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span: &Span,
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) -> Result<Type, FrameError> {
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// Parse the function name.
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println!("expression {}", expression);
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let function_type = self.parse_function_name(expression, span)?;
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// Check the length of arguments
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@ -1656,9 +1676,10 @@ impl TypeVariablePairs {
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match (left, right) {
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(Type::TypeVariable(variable), type_) => Ok(self.push(variable, type_)),
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(type_, Type::TypeVariable(variable)) => Ok(self.push(variable, type_)),
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(Type::Array(type1, dimensions1), Type::Array(type2, dimensions2)) => {
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self.push_pairs_array(type1, dimensions1, type2, dimensions2, span)
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(Type::Array(left_type, left_dimensions), Type::Array(right_type, right_dimensions)) => {
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self.push_pairs_array(left_type, left_dimensions, right_type, right_dimensions, span)
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}
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(Type::Tuple(left_types), Type::Tuple(right_types)) => self.push_pairs_tuple(left_types, right_types, span),
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(_, _) => Ok(()), // No `TypeVariable` found so we do not push any pairs.
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}
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}
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@ -1694,4 +1715,24 @@ impl TypeVariablePairs {
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Ok(())
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}
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///
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/// Checks if any given left or right tuple type contains a `TypeVariable`.
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/// If a `TypeVariable` is found, create a new `TypeVariablePair` between the given left
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/// and right type.
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///
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fn push_pairs_tuple(
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&mut self,
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left_types: &Vec<Type>,
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right_types: &Vec<Type>,
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span: &Span,
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) -> Result<(), TypeAssertionError> {
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// Iterate over each left == right pair of types.
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for (left, right) in left_types.iter().zip(right_types) {
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// Check for `TypeVariablePair`s.
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self.push_pairs(left, right, span)?;
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}
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Ok(())
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}
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}
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@ -16,7 +16,7 @@
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use crate::{ScopeError, TypeAssertionError};
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use leo_static_check::TypeError;
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use leo_typed::{Error as FormattedError, Span};
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use leo_typed::{Error as FormattedError, Identifier, Span};
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use std::path::PathBuf;
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@ -49,10 +49,55 @@ impl FrameError {
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}
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}
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// ///
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// /// Return a new formatted error with a given message and span information
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// ///
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// fn new_from_span(message: String, span: Span) -> Self {
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// FrameError::Error(FormattedError::new_from_span(message, span))
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// }
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///
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/// Return a new formatted error with a given message and span information
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///
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fn new_from_span(message: String, span: Span) -> Self {
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FrameError::Error(FormattedError::new_from_span(message, span))
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}
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///
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/// Attempted to access the `Self` type outside of a circuit context.
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///
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pub fn circuit_self(span: &Span) -> Self {
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let message = "The `Self` keyword is only valid inside a circuit context.".to_string();
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Self::new_from_span(message, span.to_owned())
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}
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///
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/// Attempted to call non-static member using `::`.
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///
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pub fn invalid_member_access(identifier: &Identifier) -> Self {
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let message = format!("non-static member `{}` must be accessed using `.` syntax", identifier);
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Self::new_from_span(message, identifier.span.to_owned())
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}
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///
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/// Attempted to call static member using `.`.
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///
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pub fn invalid_static_access(identifier: &Identifier) -> Self {
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let message = format!("static member `{}` must be accessed using `::` syntax", identifier);
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Self::new_from_span(message, identifier.span.to_owned())
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}
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///
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/// Attempted to call a circuit type that is not defined in the current context.
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///
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pub fn undefined_circuit(identifier: &Identifier) -> Self {
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let message = format!("The circuit `{}` is not defined.", identifier);
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Self::new_from_span(message, identifier.span.to_owned())
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}
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///
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/// Attempted to call a circuit function that is not defined in the current context.
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///
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pub fn undefined_circuit_function(identifier: &Identifier) -> Self {
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let message = format!("The circuit function `{}` is not defined.", identifier);
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Self::new_from_span(message, identifier.span.to_owned())
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}
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}
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@ -46,8 +46,12 @@ pub struct Identifier {
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}
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impl Identifier {
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pub fn is_self_type(&self) -> bool {
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self.name == "Self"
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}
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pub fn is_self(&self) -> bool {
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self.name == "Self" || self.name == "self"
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self.is_self_type() || self.name == "self"
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}
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}
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