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cellect-ldsc.snakefile
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cellect-ldsc.snakefile
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# Some overlapping functionality
include: "rules/common_func1.smk"
########################################################################################
################################### FUNCTIONS ##########################################
########################################################################################
# see also the *.smk files
def make_prefix__annotations(prefix, annotations):
"""
Makes a list containing the prefix appended to each annotation in the multigeneset file.
"""
# This function should possibly be moved into make_cts_file_snake.py - I can't remember
# why I decided to put it here
pa_list = []
for annot in annotations:
pa_list.append(prefix+'__'+annot)
return(pa_list)
########################################################################################
################################### VARIABLES ##########################################
########################################################################################
# see also the *.smk files
# Where all the output will be saved
BASE_OUTPUT_DIR = os.path.join(config['BASE_OUTPUT_DIR'], "CELLECT-LDSC")
# More overlapping functionality
include: "rules/common_func2.smk"
# Output file prefixes
RUN_PREFIXES = list(SPECIFICITY_INPUT.keys())
wildcard_constraints:
chromosomes = "\d+",
BASE_OUTPUT_DIR = BASE_OUTPUT_DIR,
run_prefix = r"|".join(set(SPECIFICITY_INPUT.keys())),
annotations = r"|".join(set(ANNOTATIONS_DICT)),
gwas = r"|".join(set(GWAS_SUMSTATS.keys()))
########################################################################################
################################### CONSTANTS ##########################################
########################################################################################
# see also the *.smk files
# These environment variables control how many cores numpy can use
# Setting to 1 allows snakemake to use 1 core per active rule i.e. snakemake core usage = actual core usage
os.environ["MKL_NUM_THREADS"] = str(config['LDSC_CONST']['NUMPY_CORES'])
os.environ["NUMEXPR_NUM_THREADS"] = str(config['LDSC_CONST']['NUMPY_CORES'])
os.environ["OMP_NUM_THREADS"] = str(config['LDSC_CONST']['NUMPY_CORES'])
DATA_DIR = os.path.abspath(config['LDSC_CONST']['DATA_DIR'])
LDSC_DIR = os.path.abspath(config['LDSC_CONST']['LDSC_DIR'])
GENE_COORD_FILE = os.path.abspath(config['GENE_COORD_FILE'])
BFILE_PATH = os.path.join(DATA_DIR,"1000G_EUR_Phase3_plink/1000G.EUR.QC")
PRINT_SNPS_FILE = os.path.join(DATA_DIR,"print_snps.txt")
LD_SCORE_WEIGHTS = os.path.join(DATA_DIR,"1000G_Phase3_weights_hm3_no_MHC/weights.hm3_noMHC.")
LDSC_BASELINE = os.path.join(DATA_DIR,"baseline_v1.1_thin_annot/baseline.")
CHROMOSOME_SIZES_FILE = os.path.join(DATA_DIR, "GRCh37-chr-sizes.txt")
SCRIPT_LDSC = os.path.join(LDSC_DIR,'ldsc.py')
CHROMOSOMES = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22]
# OBS: this workflow supports computing LDSC scores for the chromosomes specified in this list.
# but due to the LDSC software (_N_CHR variable) the LDSC regression have to be run on all chromosomes to work.
# hence the rule 'run_gwas' will fail if not running on all chromosomes.
H2_INTERVAL_ARG_DICT = { # key=mode/out_suffix ; value=cmd_argument
"qfixed":"--fixed-quantiles",
### THE BELOW MODES ARE TESTED AND WORKS. They are commented out to simplify the output as many users will not need the files.
# "q5_exclude_zero":"--exclude0",
# "q5_with_zero":""
}
########################################################################################
############################# Pre-check of inputs #######################################
########################################################################################
# see also the *.smk files
if not (config['ANALYSIS_TYPE']['prioritization'] or config['ANALYSIS_TYPE']['conditional'] or config['ANALYSIS_TYPE']['heritability']):
raise Exception("At least one ANALYSIS_TYPE must be true.")
if config['ANALYSIS_TYPE']['heritability']:
config_section_string = 'HERITABILITY_INPUT'
check_conditional_and_heritability_config_sections(config_section_string)
HERITABILITY_INPUT = build_dict_of_dataset_selected_annotations(config[config_section_string])
check_conditional_and_heritability_inputs(HERITABILITY_INPUT, ANNOTATIONS_DICT)
if (config['ANALYSIS_TYPE']['heritability_intervals']) and (not config['ANALYSIS_TYPE']['heritability']):
raise Exception("Mode 'heritability_intervals' is enabled. This mode requires 'heritability' mode to also be enabled.")
import pandas as pd
# Check GWAS input format for LDSC
def check_gwas_format_for_ldsc(gwas_file):
# Column names
gwas_df = pd.read_csv(gwas_file, sep= '\t')
if 'N' not in gwas_df.columns:
raise Exception("Incorrect GWAS input file format: N column is absent: " + gwas_file)
elif 'SNP' not in gwas_df.columns:
raise Exception("Incorrect GWAS input file format: SNP column is absent: " + gwas_file)
elif 'Z' not in gwas_df.columns:
raise Exception("Incorrect GWAS input file format: Z column is absent: " + gwas_file)
# do it for eqch GWAS in a row
for gwas_name in list(GWAS_SUMSTATS.keys()):
check_gwas_format_for_ldsc(GWAS_SUMSTATS[gwas_name]['path'])
########################################################################################
################################### Target files ##########################################
########################################################################################
# see also the *.smk files
if config['ANALYSIS_TYPE']['heritability']:
tmp = "{BASE_OUTPUT_DIR}/results/heritability.csv".format(BASE_OUTPUT_DIR = BASE_OUTPUT_DIR)
list_target_files.extend([tmp])
for prefix in HERITABILITY_INPUT:
tmp = expand("{BASE_OUTPUT_DIR}/out/h2/{run_prefix}__{gwas}__h2__{annotation}.results",
run_prefix = prefix,
BASE_OUTPUT_DIR = BASE_OUTPUT_DIR,
gwas = list(GWAS_SUMSTATS.keys()),
annotation = HERITABILITY_INPUT[prefix],
suffix = ["results", "cov", "delete", "part_delete", "log"])
list_target_files.extend(tmp)
analysis_types_performed.extend(['heritability'])
if config['ANALYSIS_TYPE']['heritability_intervals']:
tmp = "{BASE_OUTPUT_DIR}/results/heritability_intervals.csv".format(BASE_OUTPUT_DIR = BASE_OUTPUT_DIR)
list_target_files.extend([tmp])
for prefix in HERITABILITY_INPUT:
tmp = expand('{BASE_OUTPUT_DIR}/out/h2/{run_prefix}__{gwas}__h2_intervals__{annotation}.{mode}.results_intervals',
run_prefix = prefix,
BASE_OUTPUT_DIR = BASE_OUTPUT_DIR,
gwas = list(GWAS_SUMSTATS.keys()),
annotation = HERITABILITY_INPUT[prefix],
mode=list(H2_INTERVAL_ARG_DICT.keys())),
list_target_files.extend(tmp)
analysis_types_performed.extend(['heritability_intervals'])
########################################################################################
################################### PIPELINE ##########################################
########################################################################################
rule all:
'''
Defines the final target files to be generated.
'''
input:
list_target_files
rule parse_results:
"""
Generates {BASE_OUTPUT_DIR}/results/<analysis_type>.csv by parsing ALL output files in {BASE_OUTPUT_DIR}/out/.
"""
input:
filter(lambda s: '.csv' not in s, list_target_files) #Not sure if strictly necessary, just to make sure that the .csv files are generated AFTER the analysis
output:
expand("{{BASE_OUTPUT_DIR}}/results/{analysis_type}.csv", analysis_type=analysis_types_performed)
shell:
"python3 scripts/parse_results.py --base_output_dir {BASE_OUTPUT_DIR}"
rule make_all_genes_background:
'''
Makes an all-genes background matrix from each specificity input matrix.
'''
input:
lambda wildcards: SPECIFICITY_INPUT[wildcards.run_prefix]['path']
output:
"{BASE_OUTPUT_DIR}/precomputation/{run_prefix}/all_genes.{run_prefix}.csv"
conda:
"envs/cellectpy3.yml"
params:
out_dir = "{BASE_OUTPUT_DIR}/precomputation/{run_prefix}",
specificity_matrix_file = lambda wildcards: SPECIFICITY_INPUT[wildcards.run_prefix]['path'],
specificity_matrix_name = "{run_prefix}"
script:
"scripts/make_all_genes_snake.py"
###################################### CREATE ANNOTATIONS ######################################
rule format_genes:
'''
Adds fixed-size windows to either side of all protein-coding genes in the human genome
'''
input:
gene_coords = GENE_COORD_FILE,
chr_sizes = CHROMOSOME_SIZES_FILE
output:
temp(expand("{{BASE_OUTPUT_DIR}}/precomputation/bed/genes_plus_{window}kb.{chromosome}.bed", window = WINDOWSIZE_KB,
chromosome = CHROMOSOMES))
conda:
"envs/cellectpy3.yml"
log:
"{BASE_OUTPUT_DIR}/logs/log.format_genes_snake.txt"
params:
windowsize_kb = WINDOWSIZE_KB,
bed_out_dir = "{BASE_OUTPUT_DIR}/precomputation/bed"
script:
"scripts/format_and_map_snake.py"
rule find_overlaps:
'''
Finds where genes overlap and makes these regions into unique segments in a BED file
see https://bedops.readthedocs.io/en/latest/content/reference/set-operations/bedops.html#partition-p-partition
This is necessary so the max ES score of each overlapping region is only assigned to the region that overlaps
'''
input:
"{BASE_OUTPUT_DIR}/precomputation/bed/genes_plus_{window}kb.{chromosome}.bed"
output:
"{BASE_OUTPUT_DIR}/precomputation/bed/overlap_segments_{window}kb.{chromosome}.bed"
conda:
"envs/cellectpy3.yml"
shell:
"bedops --partition {input} | bedmap --echo --echo-map-id-uniq --delim '\t' - {input} > {output}"
rule make_annot:
'''
Make the annotation files used to generate LD scores from the specificity score matrix, HapMap3 SNPs
and calculated overlapping gene segments
'''
input:
spec_matrix=lambda wildcards: SPECIFICITY_INPUT[wildcards.run_prefix]['path'],
chrom_bfile="{bfile_path}.{{chromosome}}.bim".format(bfile_path = BFILE_PATH),
overlap_segments="{{BASE_OUTPUT_DIR}}/precomputation/bed/overlap_segments_{window}kb.{{chromosome}}.bed".format(window = WINDOWSIZE_KB)
output:
combined_annot = temp("{BASE_OUTPUT_DIR}/precomputation/{run_prefix}/{run_prefix}.COMBINED_ANNOT.{chromosome}.annot.gz"), # *TEMP FILE*
combined_annot_keep = "{BASE_OUTPUT_DIR}/out/annots/{run_prefix}/{run_prefix}.COMBINED_ANNOT.{chromosome}.annot.gz" if config['KEEP_ANNOTS'] else []
log:
"{BASE_OUTPUT_DIR}/logs/log.make_annot_snake.{run_prefix}.{chromosome}.txt"
params:
run_prefix = "{run_prefix}", # better alternative: wildcards.run_prefix?
chromosome = "{chromosome}",
out_dir = "{BASE_OUTPUT_DIR}/precomputation/{run_prefix}",
all_genes = False,
annotations = lambda wildcards: ANNOTATIONS_DICT[wildcards.run_prefix],
keep_annots = config['KEEP_ANNOTS']
conda:
"envs/cellectpy3.yml"
script:
"scripts/make_annot_from_geneset_all_chr_snake.py"
rule make_annot_all_genes:
'''
Make the annotation files used to generate LD scores from the all-genes matrix, HapMap3 SNPs
and calculated overlapping gene segments
'''
input:
spec_matrix = "{BASE_OUTPUT_DIR}/precomputation/{run_prefix}/all_genes.{run_prefix}.csv",
chrom_bfile = "{bfile_path}.{{chromosome}}.bim".format(bfile_path = BFILE_PATH),
overlap_segments = "{{BASE_OUTPUT_DIR}}/precomputation/bed/overlap_segments_{window}kb.{{chromosome}}.bed".format(window = WINDOWSIZE_KB)
output:
"{BASE_OUTPUT_DIR}/precomputation/control.all_genes_in_dataset/all_genes_in_{run_prefix}.{chromosome}.annot.gz" # not temp because used in regression
log:
"{BASE_OUTPUT_DIR}/logs/log.make_annot_snake.all_genes_in_dataset.{run_prefix}.{chromosome}.txt"
params:
run_prefix = "{run_prefix}", # better alternative: wildcards.run_prefix?
chromosome = "{chromosome}",
out_dir = "{BASE_OUTPUT_DIR}/precomputation/control.all_genes_in_dataset",
all_genes = True,
annotations = ["all_genes_in_dataset"],
keep_annots = False
conda:
"envs/cellectpy3.yml"
script:
"scripts/make_annot_from_geneset_all_chr_snake.py"
###################################### COMPUTE LDSC SCORES ######################################
rule compute_LD_scores:
'''
Compute the LD scores prior to running LD score regression
'''
input:
"{BASE_OUTPUT_DIR}/precomputation/{run_prefix}/{run_prefix}.COMBINED_ANNOT.{chromosome}.annot.gz"
output:
# ALL these files are tmp files, but it may be an advantage to keep them during pipeline dev, to avoid having to recompting ldscores if something in per_annot changes
temp("{BASE_OUTPUT_DIR}/precomputation/{run_prefix}/{run_prefix}.COMBINED_ANNOT.{chromosome}.l2.ldscore.gz"), # *TEMP FILE*
temp("{BASE_OUTPUT_DIR}/precomputation/{run_prefix}/{run_prefix}.COMBINED_ANNOT.{chromosome}.l2.M"), # *TEMP FILE*
temp("{BASE_OUTPUT_DIR}/precomputation/{run_prefix}/{run_prefix}.COMBINED_ANNOT.{chromosome}.l2.M_5_50"), # *TEMP FILE*
"{BASE_OUTPUT_DIR}/precomputation/{run_prefix}/{run_prefix}.COMBINED_ANNOT.{chromosome}.log" # *TEMP FILE BUT KEEP*
wildcard_constraints:
chromosome="\d+" # chromosome must be only a number, not sure if redundant (also have placed it in this rule arbitrarily)
log:
"{BASE_OUTPUT_DIR}/logs/log.compute_LD_scores.{run_prefix}.{chromosome}.txt"
params:
chromosome = '{chromosome}',
run_prefix = '{run_prefix}'
conda: # Need python 2 for LDSC
"envs/cellectpy27.yml"
shell:
"{SCRIPT_LDSC} --l2 --bfile {BFILE_PATH}.{params.chromosome} --ld-wind-cm 1 \
--annot {BASE_OUTPUT_DIR}/precomputation/{params.run_prefix}/{params.run_prefix}.COMBINED_ANNOT.{params.chromosome}.annot.gz \
--thin-annot --out {BASE_OUTPUT_DIR}/precomputation/{params.run_prefix}/{params.run_prefix}.COMBINED_ANNOT.{params.chromosome} \
--print-snps {PRINT_SNPS_FILE} &> {log}"
rule compute_LD_scores_all_genes:
'''
Compute the LD scores prior to running LD score regression
'''
input:
"{BASE_OUTPUT_DIR}/precomputation/control.all_genes_in_dataset/all_genes_in_{run_prefix}.{chromosome}.annot.gz"
output:
"{BASE_OUTPUT_DIR}/precomputation/control.all_genes_in_dataset/all_genes_in_{run_prefix}.{chromosome}.l2.ldscore.gz",
"{BASE_OUTPUT_DIR}/precomputation/control.all_genes_in_dataset/all_genes_in_{run_prefix}.{chromosome}.l2.M",
"{BASE_OUTPUT_DIR}/precomputation/control.all_genes_in_dataset/all_genes_in_{run_prefix}.{chromosome}.l2.M_5_50",
"{BASE_OUTPUT_DIR}/precomputation/control.all_genes_in_dataset/all_genes_in_{run_prefix}.{chromosome}.log"
wildcard_constraints:
chromosome="\d+" # chromosome must be only a number, not sure if redundant (also have placed it in this rule arbitrarily)
log:
"{BASE_OUTPUT_DIR}/logs/log.compute_LD_scores.all_genes_in_dataset.{run_prefix}.{chromosome}.txt"
params:
chromosome = '{chromosome}',
run_prefix = '{run_prefix}'
conda: # Need python 2 for LDSC
"envs/cellectpy27.yml"
shell:
"{SCRIPT_LDSC} --l2 --bfile {BFILE_PATH}.{params.chromosome} --ld-wind-cm 1 \
--annot {BASE_OUTPUT_DIR}/precomputation/control.all_genes_in_dataset/all_genes_in_{params.run_prefix}.{params.chromosome}.annot.gz \
--thin-annot --out {BASE_OUTPUT_DIR}/precomputation/control.all_genes_in_dataset/all_genes_in_{params.run_prefix}.{params.chromosome} \
--print-snps {PRINT_SNPS_FILE} &> {log}"
for prefix in RUN_PREFIXES:
# Need to use a loop to generate this rule instead of using wildcards because the output depends on the run prefix used.
# The rule generates multiple annotation output files that are matched to a specific run_prefix
# REF https://stackoverflow.com/questions/48993241/varying-known-number-of-outputs-in-snakemake
rule: # split_LD_scores
'''
Splits the files made during the compute LD scores step by annotation
'''
input:
"{BASE_OUTPUT_DIR}/precomputation/{run_prefix}/{run_prefix}.COMBINED_ANNOT.{chromosome}.l2.M",
"{BASE_OUTPUT_DIR}/precomputation/{run_prefix}/{run_prefix}.COMBINED_ANNOT.{chromosome}.l2.M_5_50",
"{BASE_OUTPUT_DIR}/precomputation/{run_prefix}/{run_prefix}.COMBINED_ANNOT.{chromosome}.log",
"{BASE_OUTPUT_DIR}/precomputation/{run_prefix}/{run_prefix}.COMBINED_ANNOT.{chromosome}.annot.gz",
ldscore="{BASE_OUTPUT_DIR}/precomputation/{run_prefix}/{run_prefix}.COMBINED_ANNOT.{chromosome}.l2.ldscore.gz"
output:
expand("{{BASE_OUTPUT_DIR}}/precomputation/{{run_prefix}}/per_annotation/{{run_prefix}}__{annotation}.{{chromosome}}.{suffix}",
annotation=ANNOTATIONS_DICT[prefix],
suffix=["l2.ldscore.gz", "l2.M", "l2.M_5_50", "annot.gz"])
conda:
"envs/cellectpy3.yml"
wildcard_constraints:
run_prefix = prefix
params:
chromosome = '{chromosome}',
run_prefix = '{run_prefix}',
out_dir = "{BASE_OUTPUT_DIR}/precomputation/{run_prefix}"
log:
"{BASE_OUTPUT_DIR}/logs/log.split_ldscores_snake.{run_prefix}_{chromosome}.txt"
script:
"scripts/split_ldscores_snake.py"
###################################### PRIORITIZATION + CONDITIONAL ######################################
rule make_cts_file:
'''
Makes the cell-type specific file for LDSC cts option
'''
input:
lambda wildcards : expand("{{BASE_OUTPUT_DIR}}/precomputation/{{run_prefix}}/per_annotation/{{run_prefix}}__{annotation}.{chromosome}.l2.ldscore.gz",
annotation=ANNOTATIONS_DICT[wildcards.run_prefix],
chromosome=CHROMOSOMES)
output:
"{BASE_OUTPUT_DIR}/precomputation/{run_prefix}.ldcts.txt"
conda:
"envs/cellectpy3.yml"
params:
chromosome = CHROMOSOMES,
prefix__annotations = lambda wildcards: make_prefix__annotations(wildcards.run_prefix, ANNOTATIONS_DICT[wildcards.run_prefix])
script:
"scripts/make_cts_file_snake.py"
rule prioritize_annotations:
'''
Run LDSC in CTS mode with the provided list of GWAS
'''
input:
"{BASE_OUTPUT_DIR}/precomputation/{run_prefix}.ldcts.txt", # or rule.make_cts_file.output....
lambda wildcards: GWAS_SUMSTATS[wildcards.gwas]['path'],
expand("{{BASE_OUTPUT_DIR}}/precomputation/control.all_genes_in_dataset/all_genes_in_{{run_prefix}}.{chromosome}.l2.ldscore.gz",
chromosome=CHROMOSOMES),
lambda wildcards: expand("{{BASE_OUTPUT_DIR}}/precomputation/{{run_prefix}}/per_annotation/{{run_prefix}}__{annotation}.{chromosome}.{suffix}",
annotation=ANNOTATIONS_DICT[wildcards.run_prefix],
chromosome=CHROMOSOMES,
suffix=["l2.ldscore.gz", "l2.M", "l2.M_5_50"] # "annot.gz" not needed for CTS mode
) # files for ALL annotations are listed in the CTS file, so the must be available.
output:
"{BASE_OUTPUT_DIR}/out/prioritization/{run_prefix}__{gwas}.cell_type_results.txt"
log:
"{BASE_OUTPUT_DIR}/logs/log.prioritize_annotations.{run_prefix}.{gwas}.txt"
params:
gwas_path = lambda wildcards: GWAS_SUMSTATS[wildcards.gwas]['path'], # use wildcards to access dict
file_out_prefix = '{BASE_OUTPUT_DIR}/out/prioritization/{run_prefix}__{gwas}',
ldsc_all_genes_ref_ld_chr_name = '{BASE_OUTPUT_DIR}/precomputation/control.all_genes_in_dataset/all_genes_in_{run_prefix}.'
conda: # Need python 2 for LDSC
"envs/cellectpy27.yml"
shell:
"{SCRIPT_LDSC} --h2-cts {params.gwas_path} \
--ref-ld-chr {LDSC_BASELINE},{params.ldsc_all_genes_ref_ld_chr_name} \
--w-ld-chr {LD_SCORE_WEIGHTS} \
--ref-ld-chr-cts {wildcards.BASE_OUTPUT_DIR}/precomputation/{wildcards.run_prefix}.ldcts.txt \
--out {params.file_out_prefix} &> {log}"
## Conditional
if config['ANALYSIS_TYPE']['conditional']: # needed to ensure CONDITIONAL_INPUT is defined
rule run_gwas_conditional:
'''
Run LDSC in CTS mode conditioned on a single cell-type annotation
'''
input:
"{BASE_OUTPUT_DIR}/precomputation/{run_prefix}.ldcts.txt",
lambda wildcards: GWAS_SUMSTATS[wildcards.gwas]['path'],
expand("{{BASE_OUTPUT_DIR}}/precomputation/control.all_genes_in_dataset/all_genes_in_{{run_prefix}}.{chromosome}.l2.ldscore.gz",
chromosome=CHROMOSOMES),
lambda wildcards: expand("{{BASE_OUTPUT_DIR}}/precomputation/{{run_prefix}}/per_annotation/{{run_prefix}}__{annotation}.{chromosome}.{suffix}",
annotation=CONDITIONAL_INPUT[wildcards.run_prefix],
chromosome=CHROMOSOMES,
suffix=["l2.ldscore.gz", "l2.M", "l2.M_5_50"] # "annot.gz" not needed for CTS mode
) # files for ALL annotations are listed in the CTS file, so the must be available
output:
"{BASE_OUTPUT_DIR}/out/conditional/{run_prefix}__{gwas}__CONDITIONAL__{annotation}.cell_type_results.txt"
log:
"{BASE_OUTPUT_DIR}/logs/log.conditional.{run_prefix}.{gwas}.{annotation}.txt"
params:
gwas_path = lambda wildcards: GWAS_SUMSTATS[wildcards.gwas]['path'],
file_out_prefix = '{BASE_OUTPUT_DIR}/out/conditional/{run_prefix}__{gwas}__CONDITIONAL__{annotation}',
ldsc_all_genes_ref_ld_chr_name = "{BASE_OUTPUT_DIR}/precomputation/control.all_genes_in_dataset/all_genes_in_{run_prefix}.",
cond_ref_ld_chr_name = "{BASE_OUTPUT_DIR}/precomputation/{run_prefix}/per_annotation/{run_prefix}__{annotation}."
conda: # Need python 2 for LDSC
"envs/cellectpy27.yml"
shell:
"{SCRIPT_LDSC} --h2-cts {params.gwas_path} \
--ref-ld-chr {LDSC_BASELINE},{params.ldsc_all_genes_ref_ld_chr_name},{params.cond_ref_ld_chr_name} \
--w-ld-chr {LD_SCORE_WEIGHTS} \
--ref-ld-chr-cts {wildcards.BASE_OUTPUT_DIR}/precomputation/{wildcards.run_prefix}.ldcts.txt \
--out {params.file_out_prefix} &> {log}"
########################################################################################
################################### Load rules ##########################################
########################################################################################
if config['ANALYSIS_TYPE']['heritability']: # conditional include statement to speed up building dag. Not sure how effective it is.
include: "rules/ldsc_h2.smk"