# Parameter Table for PipeTree # The head of comment line should be "#" # Format of input line: # [number] [name] [value] [comment] # Parameters for AllocatorTerminal resource_min 0.00e+0 # [g] bud_table_precision 1.00e-1 # [g] # stem_length = a * stem_d^b d_to_length 2.80e+1 # ``a'' d_to_length_power 1.10e+0 # ``b'' density_wood 4.00e-1 # [g cm^-3] # foliage_weight = a * stem_d^2 / SLA stem_to_foliage 25.0 # [g cm^-2] originally 25.0 # branching branching_point_order0 0.0 3.0 8.0 12.0 16.0 # [cm] branching_point_order1 -9.9 4.0 # [cm] no branching if negative branching_point_order2 -9.9 3.0 # [cm] branching_point_order3 -9.9 2.0 # [cm] branching_point_order4 -9.9 1.0 # [cm] branching_point_order5 -9.9 0.5 # [cm] # angles phi_min_vertical 0.45 # [* M_PI] phi_min_lateral -0.20 # [* M_PI] modifier_vertical 0.00 0.50 1.0 # [] modifier_lateral 1.50 0.498 1.0 # [curving] phototropism_intensity 0.0 # [0, 1]: phototropism = # * darkness branching_vertical 0.0 0.15 1.0 # [Polar] branching_lateral 0.03 0.25 1.0 # [Polar] branching_lateral 0.97 0.25 1.0 # [Polar] branching_range_vertical 0.20 0.02 0.0 # noise of branching angle branching_range_lateral 0.00 0.05 0.0 # noise of branching angle # TubeMaker tube_vertex_factor 3.0 # [/cm] number = int(# * R^0.5) tube_vertex_max 12 # max number of vertex tube_vertex_min 4 # min number of vertex # needle triangles foliage_longevity 4 # [years] triangle_area_min 0.1 # [cm^2] min area of vit_triangle triangle_head 0.9 # [0, 1] needle_vertical 0.0 0.05 1.5 # [Polar] needle_vertical 0.666 0.05 1.5 # [Polar] needle_vertical 1.333 0.05 1.5 # [Polar] needle_lateral 0.00 0.05 3.3 # [Polar] needle_lateral 1.00 0.05 3.0 # [Polar] needle_lateral 1.50 0.05 3.0 # [Polar] # eye location (origin: xyz_root of terminal PipeBundle) eye_rotate_vertical 0.00 0.50 1.02 eye_rotate_lateral 0.50 0.45 0.70 # growth_cost resource_max_vertical 30.0 # [g] resource_max_lateral 30.0 # [g] # net production = np_light_min 0.4 # # * spec_light np_max 1.6 # # * spec_light np_dark_factor 2.5 # # / spec_light # respiration root_cost 0.0 # [0, 1] respiration_surface 5.0e-4 # [g/cm^2] pipe_recycle_rate 0.80 # [0, 1] # mortality mortality_resource 5.0e+1 # Prob = exp(-# * resource/area) # bud scoring light_factor 0.50 # score = pow(light, #) cos_phi_factor 0.05 # * (1 - cos_phi * #) bud_main_dark_vertical 0.00 # [0, 1] bud_main_light_vertical 0.60 # [0, 1] bud_main_dark_lateral 0.40 # [0, 1] bud_main_light_lateral 0.40 # [0, 1]