Mercurial > repos > public > sbplib
changeset 836:049e4c6fa630 feature/poroelastic
Add dirac delta function, with corresponding test. Commented out tests for staggered grid because they do not yet exist on this branch.
| author | Martin Almquist <malmquist@stanford.edu> |
|---|---|
| date | Wed, 05 Sep 2018 14:46:39 -0700 |
| parents | 9d4246ac94c0 |
| children | 43a1c3ac07b1 |
| files | diracDiscr.m diracDiscrTest.m |
| diffstat | 2 files changed, 476 insertions(+), 0 deletions(-) [+] |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/diracDiscr.m Wed Sep 05 14:46:39 2018 -0700 @@ -0,0 +1,97 @@ +function ret = diracDiscr(x_0in , x , m_order, s_order, H, h) + +m = length(x); + +% Return zeros if x0 is outside grid +if(x_0in < x(1) || x_0in > x(end) ) + + ret = zeros(size(x)); + +else + + fnorm = diag(H); + eta = abs(x-x_0in); + tot = m_order+s_order; + S = []; + M = []; + + % Get interior grid spacing + middle = floor(m/2); + h = x(middle+1) - x(middle); + + poss = find(tot*h/2 >= eta); + + % Ensure that poss is not too long + if length(poss) == (tot + 2) + poss = poss(2:end-1); + elseif length(poss) == (tot + 1) + poss = poss(1:end-1); + end + + % Use first tot grid points + if length(poss)<tot && x_0in < x(1) + ceil(tot/2)*h; + index=1:tot; + pol=(x(1:tot)-x(1))/(x(tot)-x(1)); + x_0=(x_0in-x(1))/(x(tot)-x(1)); + norm=fnorm(1:tot)/h; + + % Use last tot grid points + elseif length(poss)<tot && x_0in > x(end) - ceil(tot/2)*h; + index = length(x)-tot+1:length(x); + pol = (x(end-tot+1:end)-x(end-tot+1))/(x(end)-x(end-tot+1)); + norm = fnorm(end-tot+1:end)/h; + x_0 = (x_0in-x(end-tot+1))/(x(end)-x(end-tot+1)); + + % Interior, compensate for round-off errors. + elseif length(poss) < tot + if poss(end)<m + poss = [poss; poss(end)+1]; + else + poss = [poss(1)-1; poss]; + end + pol = (x(poss)-x(poss(1)))/(x(poss(end))-x(poss(1))); + x_0 = (x_0in-x(poss(1)))/(x(poss(end))-x(poss(1))); + norm = fnorm(poss)/h; + index = poss; + + % Interior + else + pol = (x(poss)-x(poss(1)))/(x(poss(end))-x(poss(1))); + x_0 = (x_0in-x(poss(1)))/(x(poss(end))-x(poss(1))); + norm = fnorm(poss)/h; + index = poss; + end + + h_pol = pol(2)-pol(1); + b = zeros(m_order+s_order,1); + + for i = 1:m_order + b(i,1) = x_0^(i-1); + end + + for i = 1:(m_order+s_order) + for j = 1:m_order + M(j,i) = pol(i)^(j-1)*h_pol*norm(i); + end + end + + for i = 1:(m_order+s_order) + for j = 1:s_order + S(j,i) = (-1)^(i-1)*pol(i)^(j-1); + end + end + + A = [M;S]; + + d = A\b; + ret = x*0; + ret(index) = d/h*h_pol; +end + +end + + + + + +
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/diracDiscrTest.m Wed Sep 05 14:46:39 2018 -0700 @@ -0,0 +1,379 @@ +function tests = diracDiscrTest() + tests = functiontests(localfunctions); +end + +function testLeftGP(testCase) + + orders = [2, 4, 6]; + mom_conds = orders; + + for o = 1:length(orders) + order = orders(o); + mom_cond = mom_conds(o); + [xl, xr, m, h, x, H, fs] = setupStuff(order, mom_cond); + + % Test left boundary grid points + x0s = xl + [0, h, 2*h]; + + for j = 1:length(fs) + f = fs{j}; + fx = f(x); + for i = 1:length(x0s) + x0 = x0s(i); + delta = diracDiscr(x0, x, mom_cond, 0, H); + integral = delta'*H*fx; + err = abs(integral - f(x0)); + testCase.verifyLessThan(err, 1e-12); + end + end + end +end + +function testLeftRandom(testCase) + + orders = [2, 4, 6]; + mom_conds = orders; + + for o = 1:length(orders) + order = orders(o); + mom_cond = mom_conds(o); + [xl, xr, m, h, x, H, fs] = setupStuff(order, mom_cond); + + % Test random points near left boundary + x0s = xl + 2*h*rand(1,10); + + for j = 1:length(fs) + f = fs{j}; + fx = f(x); + for i = 1:length(x0s) + x0 = x0s(i); + delta = diracDiscr(x0, x, mom_cond, 0, H); + integral = delta'*H*fx; + err = abs(integral - f(x0)); + testCase.verifyLessThan(err, 1e-12); + end + end + end +end + +function testRightGP(testCase) + + orders = [2, 4, 6]; + mom_conds = orders; + + for o = 1:length(orders) + order = orders(o); + mom_cond = mom_conds(o); + [xl, xr, m, h, x, H, fs] = setupStuff(order, mom_cond); + + % Test right boundary grid points + x0s = xr-[0, h, 2*h]; + + for j = 1:length(fs) + f = fs{j}; + fx = f(x); + for i = 1:length(x0s) + x0 = x0s(i); + delta = diracDiscr(x0, x, mom_cond, 0, H); + integral = delta'*H*fx; + err = abs(integral - f(x0)); + testCase.verifyLessThan(err, 1e-12); + end + end + end +end + +function testRightRandom(testCase) + + orders = [2, 4, 6]; + mom_conds = orders; + + for o = 1:length(orders) + order = orders(o); + mom_cond = mom_conds(o); + [xl, xr, m, h, x, H, fs] = setupStuff(order, mom_cond); + + % Test random points near right boundary + x0s = xr - 2*h*rand(1,10); + + for j = 1:length(fs) + f = fs{j}; + fx = f(x); + for i = 1:length(x0s) + x0 = x0s(i); + delta = diracDiscr(x0, x, mom_cond, 0, H); + integral = delta'*H*fx; + err = abs(integral - f(x0)); + testCase.verifyLessThan(err, 1e-12); + end + end + end +end + +function testInteriorGP(testCase) + + orders = [2, 4, 6]; + mom_conds = orders; + + for o = 1:length(orders) + order = orders(o); + mom_cond = mom_conds(o); + [xl, xr, m, h, x, H, fs] = setupStuff(order, mom_cond); + + % Test interior grid points + m_half = round(m/2); + x0s = xl + (m_half-1:m_half+1)*h; + + for j = 1:length(fs) + f = fs{j}; + fx = f(x); + for i = 1:length(x0s) + x0 = x0s(i); + delta = diracDiscr(x0, x, mom_cond, 0, H); + integral = delta'*H*fx; + err = abs(integral - f(x0)); + testCase.verifyLessThan(err, 1e-12); + end + end + end +end + +function testInteriorRandom(testCase) + + orders = [2, 4, 6]; + mom_conds = orders; + + for o = 1:length(orders) + order = orders(o); + mom_cond = mom_conds(o); + [xl, xr, m, h, x, H, fs] = setupStuff(order, mom_cond); + + % Test random points in interior + x0s = (xl+2*h) + (xr-xl-4*h)*rand(1,20); + + for j = 1:length(fs) + f = fs{j}; + fx = f(x); + for i = 1:length(x0s) + x0 = x0s(i); + delta = diracDiscr(x0, x, mom_cond, 0, H); + integral = delta'*H*fx; + err = abs(integral - f(x0)); + testCase.verifyLessThan(err, 1e-12); + end + end + end +end + +% x0 outside grid should yield 0 integral! +function testX0OutsideGrid(testCase) + + orders = [2, 4, 6]; + mom_conds = orders; + + for o = 1:length(orders) + order = orders(o); + mom_cond = mom_conds(o); + [xl, xr, m, h, x, H, fs] = setupStuff(order, mom_cond); + + % Test points outisde grid + x0s = [xl-1.1*h, xr+1.1*h]; + + for j = 1:length(fs) + f = fs{j}; + fx = f(x); + for i = 1:length(x0s) + x0 = x0s(i); + delta = diracDiscr(x0, x, mom_cond, 0, H); + integral = delta'*H*fx; + err = abs(integral - 0); + testCase.verifyLessThan(err, 1e-12); + end + end + end +end + +function testAllGP(testCase) + + orders = [2, 4, 6]; + mom_conds = orders; + + for o = 1:length(orders) + order = orders(o); + mom_cond = mom_conds(o); + [xl, xr, m, h, x, H, fs] = setupStuff(order, mom_cond); + + % Test all grid points + x0s = x; + + for j = 1:length(fs) + f = fs{j}; + fx = f(x); + for i = 1:length(x0s) + x0 = x0s(i); + delta = diracDiscr(x0, x, mom_cond, 0, H); + integral = delta'*H*fx; + err = abs(integral - f(x0)); + testCase.verifyLessThan(err, 1e-12); + end + end + end +end + +function testHalfGP(testCase) + + orders = [2, 4, 6]; + mom_conds = orders; + + for o = 1:length(orders) + order = orders(o); + mom_cond = mom_conds(o); + [xl, xr, m, h, x, H, fs] = setupStuff(order, mom_cond); + + % Test halfway between all grid points + x0s = 1/2*( x(2:end)+x(1:end-1) ); + + for j = 1:length(fs) + f = fs{j}; + fx = f(x); + for i = 1:length(x0s) + x0 = x0s(i); + delta = diracDiscr(x0, x, mom_cond, 0, H); + integral = delta'*H*fx; + err = abs(integral - f(x0)); + testCase.verifyLessThan(err, 1e-12); + end + end + end +end + +% function testAllGPStaggered(testCase) + +% orders = [2, 4, 6]; +% mom_conds = orders; + +% for o = 1:length(orders) +% order = orders(o); +% mom_cond = mom_conds(o); +% [xl, xr, m, h, x, H, fs] = setupStaggered(order, mom_cond); + +% % Test all grid points +% x0s = x; + +% for j = 1:length(fs) +% f = fs{j}; +% fx = f(x); +% for i = 1:length(x0s) +% x0 = x0s(i); +% delta = diracDiscr(x0, x, mom_cond, 0, H); +% integral = delta'*H*fx; +% err = abs(integral - f(x0)); +% testCase.verifyLessThan(err, 1e-12); +% end +% end +% end +% end + +% function testHalfGPStaggered(testCase) + +% orders = [2, 4, 6]; +% mom_conds = orders; + +% for o = 1:length(orders) +% order = orders(o); +% mom_cond = mom_conds(o); +% [xl, xr, m, h, x, H, fs] = setupStaggered(order, mom_cond); + +% % Test halfway between all grid points +% x0s = 1/2*( x(2:end)+x(1:end-1) ); + +% for j = 1:length(fs) +% f = fs{j}; +% fx = f(x); +% for i = 1:length(x0s) +% x0 = x0s(i); +% delta = diracDiscr(x0, x, mom_cond, 0, H); +% integral = delta'*H*fx; +% err = abs(integral - f(x0)); +% testCase.verifyLessThan(err, 1e-12); +% end +% end +% end +% end + +% function testRandomStaggered(testCase) + +% orders = [2, 4, 6]; +% mom_conds = orders; + +% for o = 1:length(orders) +% order = orders(o); +% mom_cond = mom_conds(o); +% [xl, xr, m, h, x, H, fs] = setupStaggered(order, mom_cond); + +% % Test random points within grid boundaries +% x0s = xl + (xr-xl)*rand(1,300); + +% for j = 1:length(fs) +% f = fs{j}; +% fx = f(x); +% for i = 1:length(x0s) +% x0 = x0s(i); +% delta = diracDiscr(x0, x, mom_cond, 0, H); +% integral = delta'*H*fx; +% err = abs(integral - f(x0)); +% testCase.verifyLessThan(err, 1e-12); +% end +% end +% end +% end + + +% ============== Setup functions ======================= +function [xl, xr, m, h, x, H, fs] = setupStuff(order, mom_cond) + + % Grid + xl = -3; + xr = 900; + L = xr-xl; + m = 101; + h = (xr-xl)/(m-1); + g = grid.equidistant(m, {xl, xr}); + x = g.points(); + + % Quadrature + ops = sbp.D2Standard(m, {xl, xr}, order); + H = ops.H; + + % Moment conditions + fs = cell(mom_cond,1); + for p = 0:mom_cond-1 + fs{p+1} = @(x) (x/L).^p; + end + +end + +function [xl, xr, m, h, x, H, fs] = setupStaggered(order, mom_cond) + + % Grid + xl = -3; + xr = 900; + L = xr-xl; + m = 101; + [~, g_dual] = grid.primalDual1D(m, {xl, xr}); + x = g_dual.points(); + h = g_dual.h; + + % Quadrature + ops = sbp.D1Staggered(m, {xl, xr}, order); + H = ops.H_dual; + + % Moment conditions + fs = cell(mom_cond,1); + for p = 0:mom_cond-1 + fs{p+1} = @(x) (x/L).^p; + end + +end + +