from pathlib import Path import subprocess import os import time import magick_pdf_to_png import angles_in_iso_triangle_functions as aitf currfile_dir = Path(__file__).parent tex_template_path = currfile_dir / "angles_in_iso_triangle_booklet_template.tex" texans_template_path = currfile_dir / "angles_in_iso_triangle_booklet_ans_template.tex" tex_diagram_template_path = currfile_dir / "angles_in_iso_triangle_booklet_diagram_template.tex" def convert_to_pdf(tex_path, outputdir): tex_path = Path(tex_path).resolve() outputdir = Path(outputdir).resolve() # for testing # print(f"tex_path: {tex_path}") # print(f"outputdir: {outputdir}") try: # Generate the PDF subprocess.run(["latexmk", "-pdf", "-outdir=" + str(outputdir), str(tex_path)], check=True, stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL) # # Clean auxiliary files after successful PDF generation subprocess.run(["latexmk", "-c", "-outdir=" + str(outputdir), str(tex_path)], check=True, stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL) # for hosted remove stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL for debugging any errors # Remove the .tex file manually # if tex_path.exists(): # os.remove(tex_path) except subprocess.CalledProcessError as e: print(f"Error: {e}") # % end modify values for angles in triangle # tex_keys_q = ["CalcLine1", "CalcLine2", "CalcLine3", "CalcLine4"] kv_keys_ans = ["rotationAngleValue", "sideCValue", "angleAValue", "angleBValue", "angleALabel", "angleBLabel", "angleCLabel", "angleADisplayValue", "angleBDisplayValue", "angleCDisplayValue", "CalcLine1", "CalcLine2", "CalcLine3", "CalcLine4"] kv_keys_q = ["rotationAngleValue", "sideCValue", "angleAValue", "angleBValue", "angleALabel", "angleBLabel", "angleCLabel", "angleADisplayValue", "angleBDisplayValue", "angleCDisplayValue", "CalcLine1_q", "CalcLine2_q", "CalcLine3_q", "CalcLine4_q"] def trimkey(key): # trim _q off end or keep if not there key = key.replace("_q", "") return key def make1_diagram(tex_diagram_template_txt, unkown_angle_choice): tex_diagram_template_txt_ans = tex_diagram_template_txt kv = aitf.get_angles_in_iso_triangle_dict(unkown_angle_choice) for key, value in kv.items(): # show answers if key in kv_keys_ans: tex_diagram_template_txt_ans = tex_diagram_template_txt_ans.replace("<<" + key + ">>", value) for key, value in kv.items(): # don't show answers, use ___ for gaps if key in kv_keys_q: tex_diagram_template_txt = tex_diagram_template_txt.replace("<<" + trimkey(key) + ">>", value) return tex_diagram_template_txt, tex_diagram_template_txt_ans def main(): num1 = input("Enter 1, 2 or 3 for unknown unique, paired or random] \n") if num1.strip().isdigit(): num1 = int(num1) if not num1 in [1, 2]: num1 = 3 # random by default else: num1 = 3 # random by default # numq = input("Enter the number of questions from 1 to 20 \n") if numq.strip().isdigit(): numq = int(numq) if not numq in range(1, 21): numq = 4 # random by default else: numq = 4 # random by default # filename = input("Enter the base filename to be added to the prefix angles_in_iso_triangle_Bk_: \n") if not filename: filename = "1" # "angles_in_iso_triangle_Bk_1_q and angles_in_iso_triangle_Bk_1_ans as default file" # set names of files that are made # questions tex_output_path = currfile_dir / f"angles_in_iso_triangle_Bk_{filename}_q.tex" pdf_path = currfile_dir / f"angles_in_iso_triangle_Bk_{filename}_q.pdf" # answers tex_output_path_ans = currfile_dir / f"angles_in_iso_triangle_Bk_{filename}_ans.tex" pdf_path_ans = currfile_dir / f"angles_in_iso_triangle_Bk_{filename}_ans.pdf" # Read in the LaTeX template file with open(tex_template_path, "r") as infile: tex_template_txt = infile.read() # Read in the LaTeX template file for answers with open(texans_template_path, "r") as infile: tex_template_txt_ans = infile.read() # Read in the LaTeX diagram template file with open(tex_diagram_template_path, "r") as infile: tex_diagram_template_txt = infile.read() # Generate the <> replacement tex # diagram_text, diagram_text_ans = make1_diagram(tex_diagram_template_txt) # <> # generate diagrams text and text for answers diagrams_text = "" diagrams_text_ans = "" # add the headtext; disabled for now using r"" wno needed as numbers in minipage itself headtext = r"" # r"\pagebreak ~ \newline ~ \newline" for i in range(1, numq + 1): img_tex, img_tex_ans = make1_diagram(tex_diagram_template_txt, num1) if i > 4 and i % 4 == 1: diagrams_text += headtext diagrams_text_ans += headtext diagrams_text += img_tex diagrams_text_ans += img_tex_ans # Replace the <> placeholder in the LaTeX template tex_template_txt = tex_template_txt.replace("<>", diagrams_text) tex_template_txt_ans = tex_template_txt_ans.replace("<>", diagrams_text_ans) # Write the question diagrams tex to an output file with open(tex_output_path, "w") as outfile: outfile.write(tex_template_txt) # Write the answer diagrams tex to an output file with open(tex_output_path_ans, "w") as outfile: outfile.write(tex_template_txt_ans) # Wait for the files to be created time.sleep(1) # convert to pdf convert_to_pdf(tex_output_path, currfile_dir) convert_to_pdf(tex_output_path_ans, currfile_dir) # Wait for the files to be created # time.sleep(1) # convert to png # magick_pdf_to_png.convert_pdf_to_png(pdf_path, png_path) # magick_pdf_to_png.convert_pdf_to_png(pdf_path_ans, png_path_ans) if __name__ == "__main__": print("starting") main() print("finished")