import numpy as np

import sys
sys.path.append('/home/aubin/Simbelmyne/sbmy_control/')
from cosmo_params import register_arguments_cosmo, parse_arguments_cosmo

fs = 18
fs_titles = fs -4

def plot_imshow_with_reference( data_list, 
                                reference=None, 
                                titles=None,
                                vmin=None,
                                vmax=None,
                                L=None, 
                                cmap='viridis'):
    """
    Plot the imshow of a list of 2D arrays with two rows: one for the data itself,
    one for the data compared to a reference. Each row will have a common colorbar.

    Parameters:
    - data_list: list of 2D arrays to be plotted
    - reference: 2D array to be used as reference for comparison
    - titles: list of titles for each subplot
    - cmap: colormap to be used for plotting
    """
    import matplotlib.pyplot as plt

    if titles is None:
        titles = [None for f in data_list]
    
    if L is None:
        L = [len(data) for data in data_list]
    elif isinstance(L, int) or isinstance(L, float):
        L = [L for data in data_list]

    sep = 10 if L[0] < 100 else 20 if L[0] < 200 else 100
    ticks = [np.arange(0, l+1, sep)*len(dat)/l for l, dat in zip(L,data_list)]
    tick_labels = [np.arange(0, l+1, sep) for l in L]

    def score(data, reference):
        return np.linalg.norm(data-reference)/np.linalg.norm(reference)

    n = len(data_list)
    fig, axes = plt.subplots(1 if reference is None else 2, n, figsize=(5 * n, 5 if reference is None else 5*2), dpi=max(500, data_list[0].shape[0]//2))

    if vmin is None or vmax is None:
        vmin = min(np.quantile(data,0.01) for data in data_list)
        vmax = max(np.quantile(data,0.99) for data in data_list)

    if reference is not None:
        vmin_diff = min(np.quantile((data-reference),0.01) for data in data_list)
        vmax_diff = max(np.quantile((data-reference),0.99) for data in data_list)
    else:
        vmin_diff = vmin
        vmax_diff = vmax

    if reference is not None:
        # Plot the data itself
        for i, data in enumerate(data_list):
            im = axes[0, i].imshow(data, cmap=cmap, origin='lower', vmin=vmin, vmax=vmax)
            axes[0, i].set_title(titles[i], fontsize=fs_titles)
            axes[0, i].set_xticks(ticks[i])
            axes[0, i].set_yticks(ticks[i])
            axes[0, i].set_xticklabels(tick_labels[i])
            axes[0, i].set_yticklabels(tick_labels[i])
            axes[0, i].set_xlabel('Mpc/h')
        fig.colorbar(im, ax=axes[0, :], orientation='vertical')

        # Plot the data compared to the reference
        for i, data in enumerate(data_list):
            im = axes[1, i].imshow(data - reference, cmap=cmap, origin='lower', vmin=vmin_diff, vmax=vmax_diff)
            axes[1, i].set_title(f'{titles[i]} - Reference', fontsize=fs_titles)
            axes[1, i].set_xticks(ticks[i])
            axes[1, i].set_yticks(ticks[i])
            axes[1, i].set_xticklabels(tick_labels[i])
            axes[1, i].set_yticklabels(tick_labels[i])
            axes[1, i].set_xlabel('Mpc/h')
        fig.colorbar(im, ax=axes[1, :], orientation='vertical')
        
        # Add the score on the plots
        for i, data in enumerate(data_list):
            axes[1, i].text(0.5, 0.9, f"Score: {score(data, reference):.2e}", fontsize=10, transform=axes[1, i].transAxes, color='white')
        # plt.tight_layout()
    else:
        for i, data in enumerate(data_list):
            im = axes[i].imshow(data, cmap=cmap, origin='lower', vmin=vmin, vmax=vmax)
            axes[i].set_title(titles[i], fontsize=fs_titles)
            axes[0, i].set_xticks(ticks[i])
            axes[0, i].set_yticks(ticks[i])
            axes[0, i].set_xticklabels(tick_labels[i])
            axes[0, i].set_yticklabels(tick_labels[i])
        fig.colorbar(im, ax=axes[:], orientation='vertical')

    return fig, axes


if __name__ == "__main__":
    from argparse import ArgumentParser
    parser = ArgumentParser(description='Comparisons of fields slices.')

    parser.add_argument('-a','--axis', type=int, default=0, help='Axis along which the slices will be taken.')
    parser.add_argument('-i','--index', type=int, default=None, help='Index of the slice along the axis.')
    parser.add_argument('-d', '--directory', type=str, required=True, help='Directory containing the fields files.')
    parser.add_argument('-ref', '--reference', type=str, default=None, help='Reference field file.')
    parser.add_argument('-f', '--filenames', type=str, nargs='+', required=True, help='Field files to be plotted.')
    parser.add_argument('-o', '--output', type=str, default=None, help='Output plot file name.')
    parser.add_argument('-l', '--labels', type=str, nargs='+', default=None, help='Labels for each field.')
    parser.add_argument('-c', '--cmap', type=str, default='viridis', help='Colormap to be used for plotting.')
    parser.add_argument('-vmin', type=float, default=None, help='Minimum value for the colorbar.')
    parser.add_argument('-vmax', type=float, default=None, help='Maximum value for the colorbar.')
    parser.add_argument('-t', '--title', type=str, default=None, help='Title for the plot.')
    parser.add_argument('-log','--log_scale', action='store_true', help='Use log scale for the data.')

    register_arguments_cosmo(parser)

    args = parser.parse_args()

    from pysbmy.field import read_field
    from pysbmy.cosmology import d_plus

    ref_field = read_field(args.directory+args.reference) if args.reference is not None else None
    fields = [read_field(args.directory+f) for f in args.filenames]

    if args.index is None:
        index = ref_field.N0//2
    else:
        index=args.index
    
    # args.labels=[f"a={f.time:.2f}" for f in fields]
    L = [f.L0 for f in fields]

    match args.axis:
        case 0 | 'x':
            reference = ref_field.data[index,:,:] if ref_field is not None else None
            fields = [f.data[index,:,:] for f in fields]
            # reference = ref_field.data[index,:,:]/d_plus(1e-3,ref_field.time,parse_arguments_cosmo(args))
            # fields = [f.data[index,:,:]/d_plus(1e-3,f.time,parse_arguments_cosmo(args)) for f in fields]
            # reference = ref_field.data[index,:,:]/d_plus(1e-3,0.05,parse_arguments_cosmo(args))
            # fields = [f.data[index,:,:]/d_plus(1e-3,time,parse_arguments_cosmo(args)) for f,time in zip(fields,[0.05, 1.0])]
        case 1 | 'y':
            reference = ref_field.data[:,index,:] if ref_field is not None else None
            fields = [f.data[:,index,:] for f in fields]
        case 2 | 'z':
            reference = ref_field.data[:,:,index] if ref_field is not None else None
            fields = [f.data[:,:,index] for f in fields]
        case _:
            raise ValueError(f"Wrong axis provided : {args.axis}")
    
    if args.log_scale:
        reference = np.log10(2.+reference) if ref_field is not None else None
        fields = [np.log10(2.+f) for f in fields]
    

    
    fig, axes = plot_imshow_with_reference(fields,reference,args.labels, vmin=args.vmin, vmax=args.vmax,cmap=args.cmap, L=L)
    fig.suptitle(args.title)
    
    if args.output is not None:
        fig.savefig(args.output)
    else:
        fig.savefig(args.directory+'slices.png')