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//! Bincode-based FFI API for physics sim linear elasticity functions.
use crateBincodeBuffer;
use cratefrom_bincode_buffer;
use crateto_bincode_buffer;
use crateFfiResult;
use crateElasticityParameters;
use crate;
/// Solves the linear elasticity equations for stress and displacement in a deformable solid via bincode serialization.
///
/// The elasticity equations σᵢⱼ = Cᵢⱼₖₗεₖₗ with strain εᵢⱼ = ½(∂uᵢ/∂xⱼ + ∂uⱼ/∂xᵢ) describe
/// small deformations in elastic materials, where σ is stress tensor, ε is strain tensor,
/// u is displacement field, and C is the stiffness tensor.
///
/// # Arguments
///
/// * `buffer` - A bincode-encoded buffer containing `ElasticityParameters` with:
/// - `nx`, `ny`: Grid dimensions for finite element discretization
/// - `young_modulus`: Young's modulus E (stiffness)
/// - `poisson_ratio`: Poisson's ratio ν (lateral contraction)
/// - `applied_force`: External force distribution
/// - `boundary_conditions`: Fixed displacement constraints
///
/// # Returns
///
/// A bincode-encoded buffer containing `FfiResult<Vec<f64>, String>` with either:
/// - `ok`: Displacement field u(x,y) as flattened vector
/// - `err`: Error message if computation failed
///
/// # Safety
///
/// This function is unsafe because it receives a raw bincode buffer that must be
/// valid and properly encoded.
///
/// # Safety
///
/// This function is unsafe because it dereferences raw pointers as part of the FFI boundary.
/// The caller must ensure:
/// 1. All pointer arguments are valid and point to initialized memory.
/// 2. The memory layout of passed structures matches the expected C-ABI layout.
/// 3. Any pointers returned by this function are managed according to the API's ownership rules.
pub unsafe extern "C"